Home
  >  
Section 90

EurekaMag Full Text Articles Chapter 89,510



References:

Chandler, P.; Townsend, P. 1993: Waveguides and waveguide lasers fabricated by ion implantation. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 80-81: 1135-1142
Thode, A. 2016: Waveguides and whales: a review about using acoustic waveguide theory for localizing whales and inverting for their propagation environment. Journal of the Acoustical Society of America 140(4): 2976-2977
Dessy, R.E. 1989: Waveguides as Chemical Sensors. Analytical Chemistry 61(19): 1079A-1094A
Hayata, K.; Koshiba, M. 1995: Waveguides based on drift and diffusion. Journal of Applied Physics 77(4): 1808-1809
Oliner, A. 1976: Waveguides for acoustic surface waves: a review. Proceedings of the IEEE 64(5): 615-627
Peng, Z.; Lin, X.; Hwang, J.; Andriese, M.; Zhang, Y.; Li, G.; Jiang, T. 2016: Waveguides for long-distance energy transport in microwave heating. Journal of Microwave Power and Electromagnetic Energy 50(3): 153-167
Hughes, M.; Homewood, K.; Curry, R.; Ohishi, Y.; Suzuki, T. 2014: Waveguides in Ni-doped glass and glass–ceramic written with a 1k Hz femtosecond laser. Optical Materials 36(9): 1604-1608
Sigalas, M.M.; Biswas, R.; Ho, K.M.; Soukoulis, C.M.; Crouch, D.D. 1999: Waveguides in three-dimensional metallic photonic band-gap materials. Physical Review B 60(7): 4426-4429
Krejčiřík, D. 2015: Waveguides with asymptotically diverging twisting. Applied Mathematics Letters 46: 7-10
Goubau, G. 1964: Waveguides - General. IEEE Spectrum 1(10): 81-84
Ohke, S.; Satomura, Y.; Umeda, T.; Cho, Y. 1994: Waveguiding Characteristics of Optical Waveguide with Claddings Having Negative Nonlinear Refractive Coefficient. Japanese Journal of Applied Physics 33(Part 1, No. 6A): 3478-3479
Jovanović, .; Gajić, R.; Djokić, D.; Hingerl, K. 2009: Waveguiding Effect in Ga as 2D Hexagonal Photonic Crystal Tiling. Acta Physica Polonica A 116(1): 55-57
Zhou, Y.; Hauser, A.W.; Bende, N.P.; Kuzyk, M.G.; Hayward, R.C. 2016: Waveguiding Microactuators Based on a Photothermally Responsive Nanocomposite Hydrogel. Advanced Functional Materials 26(30): 5447-5452
Takazawa, K. 2007: Waveguiding Properties of Fiber-Shaped Aggregates Self-Assembled from Thiacyanine Dye Molecules. The Journal of Physical Chemistry C 111(24): 8671-8676
Furukawa, R.; Tagaya, A.; Iwata, S.; Koike, Y. 2007: Waveguiding Property of a Plastic Optical Fiber Fabricated Using Low-Birefringence Copolymer. Japanese Journal of Applied Physics 46(47): L1182-L1184
Stegeman, G.I. 1991: Waveguiding and Waveguide Applications of Nonlinear Organic Materials. ACS Symposium Series: 113-127
Ramos Ramón, J.A.; Pal, U.; Maestre, D.; Cremades, A. 2018: Waveguiding behavior of VLS-grown one-dimensional Ga-doped in 2 O 3 nanostructures. Current Applied Physics 18(7): 785-792
Cugat, J.; Solé, R.; Pujol, M.; Carvajal, J.; Mateos, X.; Díaz, F.; Aguiló, M. 2010: Waveguiding demonstration on Yb:Nb:Rb Ti OPO4/Rb Ti OPO4(001) epitaxies grown by LPE. Optical Materials 32(12): 1648-1651
Valenta, J.; Pelant, I.; Linnros, J. 2002: Waveguiding effects in the measurement of optical gain in a layer of Si nanocrystals. Applied Physics Letters 81(8): 1396-1398
Lehr, G.; Härle, V.; Scholz, F.; Schweizer, H. 1996: Waveguiding in (quantum) wire structures: Impact on the polarization characteristics and the slope of the optical gain. Applied Physics Letters 68(17): 2326-2328
Grishin, A.M.; Khartsev, S.I. 2019: Waveguiding in All-Garnet Heteroepitaxial Magneto-Optical Photonic Crystals. JETP Letters 109(2): 83-86
Feger, C.; Perutz, S.; Reuter, R.; McGrath, J.E.; Osterfeld, M.; Franke, H. 1995: Waveguiding in High-Temperature-Stable Materials. ACS Symposium Series: 272-282
Pištora, J.; Domański, A.; Bárta, O.; Staněk, F.; Postava, K.; Ciprian, D.; Kopřiva, I. 2001: Waveguiding in Thin Films with Quadratic Magneto-Optical Medium. Acta Physica Polonica A 99(1): 17-23
Paoli, T. 1977: Waveguiding in a stripe-geometry junction laser. IEEE Journal of Quantum Electronics 13(8): 662-668
Schwartz, B.T.; Piestun, R. 2004: Waveguiding in air by total external reflection from ultralow index metamaterials. Applied Physics Letters 85(1): 1-3
Lee, C.; Margalit, S.; Yariv, A. 1978: Waveguiding in an exponentially decaying gain medium. Optics Communications 25(1): 1-4
Jackson, S.; Reeson, K.; Reed, G. 1995: Waveguiding in epitaxial 3C-silicon carbide on silicon. Electronics Letters 31(17): 1438-1439
Manning, J.S.; Olshansky, R. 1982: Waveguiding in oxide‐isolated stripe‐geometry diode lasers. Journal of Applied Physics 53(2): 840-842
Lončar, M.; Nedeljković, D.; Doll, T.; Vučković, J.; Scherer, A.; Pearsall, T.P. 2000: Waveguiding in planar photonic crystals. Applied Physics Letters 77(13): 1937-1939
Olshansky, R. 1982: Waveguiding in stripe‐geometry diode lasers with power‐law profiles. Journal of Applied Physics 53(2): 843-845
Liu, H.; Vázquez de Aldana, J.R.; del Rosal Rabes, B.; Chen, F. 2015: Waveguiding microstructures in Nd:YAG with cladding and inner dual-line configuration produced by femtosecond laser inscription. Optical Materials 39: 125-129
Sui, C.; Wu, P.; Zhao, P. 2009: Waveguiding properties and applications of silica nanowires in various environments. Optoelectronics Letters 5(4): 241-243
Ishii, Y.; Satozono, S.; Omori, K.; Fukuda, M. 2016: Waveguiding properties in dye-doped submicron poly(N -vinylcarbazole) fibers. Journal of Polymer Science Part B: Polymer Physics 54(13): 1237-1244
Elliman, R.; Forcales, M.; Wilkinson, A.; Smith, N. 2007: Waveguiding properties of Er-implanted silicon-rich oxides. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 257(1-2): 11-14
Arzhanov, E V.; Bogatov, A. P.; Konyaev, V P.; Nikitina, O M.; Shveikin, V I. 1994: Waveguiding properties of heterolasers based on in Ga As/Ga as strained quantum-well structures and characteristics of their gain spectra. Quantum Electronics 24(7): 581-587
Essahlaoui, A.; Boudrioua, A.; Loulergue, J.; Chety, R.; Millon, E.; Perriere, J. 2002: Waveguiding properties of pulsed-laser deposition Ca4Gd O(BO3)3 thin films. Optical Materials 19(4): 389-394
Brunner, S.; Rück, D.; Frank, W.; Linke, F.; Schöss, A.; Behringer, U. 1994: Waveguiding structures in polymers by ion implantation. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 89(1-4): 373-378
Citrin, D.S. 1995: Waveguiding without a waveguide: Local‐mode exciton polaritons in multiple quantum wells. Applied Physics Letters 66(8): 994-996
Béarzi, Y.; Digne, J.; Chaine, R. 2018: Wavejets: a Local Frequency Framework for Shape Details Amplification. Computer Graphics Forum 37(2): 13-24
Berryman, K.; Smith, T. 1996: Wavelenghth switching in an optical klystron. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 375(1-3): 539-542
Hou, L.X.; Wei, M. 2012: Wavelength Adaptive Assignment Scheme for Optical Transport Network in Intelligent Highway System. Advanced Materials Research 443-444: 558-562
Zakouni, A.; Toumi, H.; Saidi, A.; Mabrouk, A. 2019: Wavelength Assignment Vs. Wavelength Converter Placement in Wavelength-Routed Optical WDM Networks. Procedia Computer Science 160: 766-771
Mikac, B.; Inkret, R.; Tillerot, F. 1999: Wavelength Assignment in WDM Networks - a Comparison of Approaches. Optical Networks: Design and Modelling: 37-43
Cho, J.; Gemperline, P.J.; Walker, D. 1995: Wavelength Calibration Method for a CCD Detector and Multichannel Fiber-Optic Probes. Applied Spectroscopy 49(12): 1841-1845
Blanco, M.; Coello, J.; Iturriaga, H.; Maspoch, S.; Rovira, E. 1995: Wavelength Calibration Transfer between Diode Array UV-Visible Spectrophotometers. Applied Spectroscopy 49(5): 593-597
Criss, J.W. 1979: Wavelength Calibration of Flat-Crystal and Convex Curved-Crystal X-Ray Spectrographs. Applied Spectroscopy 33(1): 19-25
Hinkle, K.; Joyce, R.; Hedden, A.; Wallace, L.; Engleman, Jr., R. 2001: Wavelength Calibration of Near‐Infrared Spectra. Publications of the Astronomical Society of the Pacific 113(783): 548-566
Busch, K.W.; Soyemi, O.; Rabbe, D.; Humphrey, K.; Dundee, B.; Busch, M.A. 2000: Wavelength Calibration of a Dispersive Near-Infrared Spectrometer Using Trichloromethane as a Calibration Standard. Applied Spectroscopy 54(9): 1321-1326
Laulicht, I. 1974: Wavelength Calibrator for a Spectrometer with a Photon Counting Detecting System. Applied Spectroscopy 28(3): 270-273
Lavers, C.R.; Sambles, J.R. 1991: Wavelength Characterisation of Ferroelectric Liquid Crystal Cells. Japanese Journal of Applied Physics 30(Part 1, No. 4): 729-734
Zhang, D.; Ma, C.; Duan, Y.; Du, W.; Liu, J.; Chai, J. 2021: Wavelength Characteristic Analysis of a FBG Array Embedded in Quaternary Unconsolidated Strata during a Deep Borehole Installation. Journal of Sensors 2021: 1-13
Zhu, N.H.; Ke, J.H.; Zhang, H.G.; Chen, W.; Liu, J.G.; Zhao, L.J.; Wang, W. 2010: Wavelength Coded Optical Time-Domain Reflectometry. Journal of Lightwave Technology 28(6): 972-977
Wei, L.; Tatel, G. 2019: Wavelength Continuously Tunable All-Fiber Flat-Top Comb Filter Based on a Dual-Pass Mach–Zehnder Interferometer. Journal of Lightwave Technology 37(15): 3740-3749
Vermeulen, N.; Sipe, J.E.; Lefevre, Y.; Debaes, C.; Thienpont, H. 2011: Wavelength Conversion Based on Raman- and Non-Resonant Four-Wave Mixing in Silicon Nanowire Rings Without Dispersion Engineering. IEEE Journal of Selected Topics in Quantum Electronics 17(4): 1078-1091
Oh, J.; Song, H.; Eom, Y.; Ryu, J.; Ju, M.; Kim, H. 2011: Wavelength Conversion Lanthanide(III)-cored Complex for Highly Efficient Dye-sensitized Solar Cells. Bulletin of the Korean Chemical Society 32(8): 2743-2750
Fisher, M.; Chuang, S. 2004: Wavelength Conversion Using an Integrated DFB Laser–Phase Shifter. IEEE Photonics Technology Letters 16(1): 197-199
Peacock, A.C.; Ballato, J.; Campling, J.; Runge, A.F.J.; Ren, H.; Shen, L.; Aktas, O.; Horak, P.; Healy, N.; Gibson, U.J. 2018: Wavelength Conversion and Supercontinuum Generation in Silicon Optical Fibers. IEEE Journal of Selected Topics in Quantum Electronics 24(3): 1-9
Camerlingo, A.; Parmigiani, F.; Feng, X.; Poletti, F.; Horak, P.; Loh, W.H.; Richardson, D.J.; Petropoulos, P. 2010: Wavelength Conversion in a Short Length of a Solid Lead–Silicate Fiber. IEEE Photonics Technology Letters 22(9): 628-630
Astar, W.; Apiratikul, P.; Murphy, T.E.; Carter, G.M. 2010: Wavelength Conversion of 10-Gb/s RZ-OOK Using Filtered XPM in a Passive Ga As–Al Ga as Waveguide. IEEE Photonics Technology Letters 22(9): 637-639
Ohtsuki, T.; Matsuura, M. 2018: Wavelength Conversion of 25-Gbit/s PAM-4 Signals Using a Quantum-Dot SOA. IEEE Photonics Technology Letters 30(5): 459-462
Vukovic, D.; Schroeder, J.; Ding, Y.; Pelusi, M.D.; Du, L.B.; Ou, H.; Peucheret, C. 2015: Wavelength Conversion of DP-QPSK Signals in a Silicon Polarization Diversity Circuit. IEEE Photonics Technology Letters 27(4): 411-414
Pelusi, M.D.; Luan, F.; Madden, S.; Choi, D.; Bulla, D.A.; Luther-Davies, B.; Eggleton, B.J. 2010: Wavelength Conversion of High-Speed Phase and Intensity Modulated Signals Using a Highly Nonlinear Chalcogenide Glass Chip. IEEE Photonics Technology Letters 22(1): 3-5
Jianjun Yu; Ming-Fang Huang, 2008: Wavelength Conversion of Optically Labeled 112-Gb/s Polarization-Multiplexed RZ-QPSK Packets. IEEE Photonics Technology Letters 20(23): 1977-1979
Yi, A.; Yan, L.; Luo, B.; Pan, W.; Ye, J. 2011: Wavelength Conversion of RZ-OOK PDM Signals Based on XPM in Highly Nonlinear Fiber. IEEE Photonics Technology Letters 23(6): 341-343
Vukovic, D.; Yu, Y.; Heuck, M.; Ek, S.; Kuznetsova, N.; Colman, P.; Palushani, E.; Xu, J.; Yvind, K.; Oxenlowe, L.K.; Mork, J.; Peucheret, C. 2014: Wavelength Conversion of a 9.35-Gb/s RZ OOK Signal in an in P Photonic Crystal Nanocavity. IEEE Photonics Technology Letters 26(3): 257-260
Huang, M.; Yu, J.; Huang, Y.; Ip, E.; Chang, G. 2010: Wavelength Converter for Polarization-Multiplexed 100-G Transmission with Multilevel Modulation Using a Bismuth Oxide-Based Nonlinear Fiber. IEEE Photonics Technology Letters 22(24): 1832-1834
Liu, J.; Sun, B.; Luo, J.; Yu, X.; Li, H. 2016: Wavelength Corrected Ultrafast Pulse Characterization Using Frequency Resolved Optical Gating. Procedia Engineering 140: 171-175
Puerto, G.; Mora, J.; Ortega, B.; Capmany, J. 2010: Wavelength Data Rewriter for Centralized-Source Radio-Over-Fiber Access Networks. IEEE Photonics Technology Letters 22(15): 1102-1104
Jaumard, B.; Pouya, H.; Coudert, D. 2019: Wavelength Defragmentation for Seamless Migration. Journal of Lightwave Technology 37(17): 4382-4393
Zou, X.; Pan, W.; Luo, B.; Yan, L. 2012: Wavelength Demodulation Approach Based on Dispersion-Induced Microwave Power Fading for Optical Sensor. IEEE Sensors Journal 12(5): 1267-1271
Do, V.K.; Roux, X.L.; Caer, C.; Marris-Morini, D.; Izard, N.; Vivien, L.; Cassan, E. 2011: Wavelength Demultiplexer Based on a Two-Dimensional Graded Photonic Crystal. IEEE Photonics Technology Letters 23(15): 1094-1096
Blau, M.; Marom, D.M. 2020: Wavelength Demultiplexer Designs Operating over Multiple Spatial Modes of a Rectangular Waveguide. IEEE Journal of Selected Topics in Quantum Electronics 26(4): 1-11
Esfahani, G.; Golnabi, H.; Talebian D., M. 2018: Wavelength Dependence of Displacement and Velocity Resolution in Laser Doppler Vibrometry. Journal of Applied Spectroscopy 85(3): 476-482
Sato, H.; Kiguchi, M.; Maki, A. 2006: Wavelength Dependence of Effective Pathlength Factor in Noninvasive Optical Measurements of Human Brain Functions. Japanese Journal of Applied Physics 45(12): L361-L363
Eales, T.D.; Marko, I.P.; Ikyo, B.A.; Adams, A.R.; Arafin, S.; Sprengel, S.; Amann, M.; Sweeney, S.J. 2017: Wavelength Dependence of Efficiency Limiting Mechanisms in Type-i Mid-Infrared Ga in as Sb/Ga Sb Lasers. IEEE Journal of Selected Topics in Quantum Electronics 23(6): 1-9
Hamada, Y.; Kawanishi, S.; Nishii, M.; Sugimoto, S.; Yamamoto, T. 1994: Wavelength Dependence of Excimer Laser Irradiation Effects on Ethylene-Tetrafluoroethylene Copolymer. Japanese Journal of Applied Physics 33(Part 1, No. 8): 4764-4768
Okoshi, M.; Higashikawa, K.; Hanabusa, M. 2001: Wavelength Dependence of Femtosecond Pulsed Laser Deposition of Zinc Oxide Films. Japanese Journal of Applied Physics 40(Part 1, No. 3A): 1287-1288
Sugiyama, A.; Nakajima, A. 2012: Wavelength Dependence of IR Laser for Dual-laser Shattering of a Water Microdroplet. Chemistry Letters 41(11): 1481-1483
Suzuki, S.; Fujita, T.; Awazu, K. 2008: Wavelength Dependence of Infrared Matrix-Assisted Laser Desorption/Ionization and its Application. Journal of the Mass Spectrometry Society of Japan 56(5): 235-240
Morita, S.; Zakhidov, A.A.; Yoshino, K. 1993: Wavelength Dependence of Junction Characteristics of Poly(3-alkylthiophene)/C60Layer. Japanese Journal of Applied Physics 32(Part 2, No. 6B): L873-L874
Alcock, A.J.; DeMichelis, C.; Richardson, M.C. 1969: Wavelength Dependence of Laser‐induced Gas Breakdown Using Dye Lasers. Applied Physics Letters 15(2): 72-73
Villmann, B.; Weickhardt, C. 2017: Wavelength Dependence of Light Induced Changes in Reflectance Spectra of Selected Dyes and Pigments. Studies in Conservation 63(2): 104-112
Zhang, Y.; Dragan, A.; Geddes, C.D. 2009: Wavelength Dependence of Metal-Enhanced Fluorescence. The Journal of Physical Chemistry C 113(28): 12095-12100
Righini, F.; Rosso, A.; Cezairliyan, A.; Miiller, A P. 1993: Wavelength Dependence of Normal Spectral Emissivity at the Melting Point of Refractory Transition Metals. Metrologia 30(3): 197-199
Miller, A.; Staromlynska, J.; Muirhead, I.; Lewis, K. 1988: Wavelength Dependence of Optical Bistability in Molecular-beam-deposited Zn Se Interference Filters. Journal of Modern Optics 35(3): 529-540
Branin, P.B.; Fonger, W.H. 1975: Wavelength Dependence of PVA‐Phosphor‐Dot Photohardening. Journal of The Electrochemical Society 122(1): 94-97
Bosshard, R.; Rausch, R.; Sauce, M.; Zajde, C.; Amsel, G. 1972: Wavelength Dependence of Photo Multiplier. Single Electron Response Amplitude Spectra. IEEE Transactions on Nuclear Science 19(3): 107-111
Okoshi, M.; Iyono, M.; Inoue, N.; Yamashita, T. 2009: Wavelength Dependence of Photochemical Surface Modification of Silicone Rubber. Journal of the Korean Physical Society 54(3): 1203-1206
Kovalskiy, A.; Vlcek, M.; Palka, K.; Golovchak, R.; Jain, H. 2013: Wavelength Dependence of Photostructural Transformations in As2S3 Thin Films. Physics Procedia 44: 75-81
Toriumi, M.; Kawasaki, T.; Araki, M.; Imai, T.; Tsukiyama, K. 2019: Wavelength Dependence of Poly(p-hydroxystyrene) Ablation by Mid-Infrared Free-Electron Laser. Journal of Photopolymer Science and Technology 32(2): 189-193
Holzwarth, A.R.; Schaffner, K. 1981: Wavelength Dependence of Quantum Yields and Product Distribution in the Anaerobic Photochemistry of Bilirubin Dimethyl Ester. Photochemistry and Photobiology 33(5): 635-639
Doherty, M.D.; Murphy, A.; McPhillips, J.; Pollard, R.J.; Dawson, P. 2010: Wavelength Dependence of Raman Enhancement from Gold Nanorod Arrays: Quantitative Experiment and Modeling of a Hot Spot Dominated System. The Journal of Physical Chemistry C 114(47): 19913-19919
Ando, S.; Watanabe, Y.; Matsuura, T. 2002: Wavelength Dependence of Refractive Indices of Polyimides in Visible and Near-IR Regions. Japanese Journal of Applied Physics 41(Part 1, No. 8): 5254-5258
Little, M.W.; Laboy, J.; Murray, K.K. 2006: Wavelength Dependence of Soft Infrared Laser Desorption and Ionization. The Journal of Physical Chemistry C 111(3): 1412-1416
Lal, K.; Chavoor, G.; Xiaomin Jin, 2011: Wavelength Dependence of Transverse Mode Coupling With/Without E-Block of Ga N Laser Cavity. IEEE Photonics Journal 3(6): 1206-1213
Kanazawa, Y.; Sawada, A.; Zhao, W.J.; Jarupoonphol, W.; Takai, M. 2003: Wavelength Dependence of UV Laser Cleaning for Silicon Field Emitter Arrays. Japanese Journal of Applied Physics 42(Part 1, No. 6B): 4041-4043
Nishizawa, N.; Kawagoe, H.; Yamanaka, M.; Matsushima, M.; Mori, K.; Kawabe, T. 2019: Wavelength Dependence of Ultrahigh-Resolution Optical Coherence Tomography Using Supercontinuum for Biomedical Imaging. IEEE Journal of Selected Topics in Quantum Electronics 25(1): 1-15
Sugiyama, A.; Nakajima, A. 2014: Wavelength Dependence of Water Microdroplet Shattering with Dual IR Lasers and Dye Sensitization. Zeitschrift für Physikalische Chemie 228(4-5): 459-470
Turri, F.; Ramiro-Manzano, F.; Carusotto, I.; Ghulinyan, M.; Pucker, G.; Pavesi, L. 2016: Wavelength Dependence of a Vertically Coupled Resonator-Waveguide System. Journal of Lightwave Technology 34(23): 5385-5390
Nagahama, S.; Yanamoto, T.; Sano, M.; Mukai, T. 2001: Wavelength Dependence of in Ga N Laser Diode Characteristics. Japanese Journal of Applied Physics 40(Part 1, No. 5A): 3075-3081
Mamilov, S.A.; Esman, S.S.; Veligoskiy, D.V.; Asimov, M.M.; Gisbrecht, A. 2014: Wavelength Dependence of the Efficiency of in vivo Photolysis of Carboxyhemoglobin. Journal of Applied Spectroscopy 81(3): 432-436
Friess, S.; Bauschulte, B. 1991: Wavelength Dependence of the Electrooptic Coefficients in Li Nb O3: Fe. Physica Status Solidi (a) 125(1): 369-374
Bensasson, R.; Land, E.J.; Truscott, T.G. 1975: Wavelength Dependence of the Intersystem Crossing Efficiency for Retinal Isomers. Photochemistry and Photobiology 21(6): 419-421
Ostrova, N.I.; Shugarov, S.Y.; Andronov, I.L. 2005: Wavelength Dependence of the Orbital Variability of the Eclipsing Nova-Like Object Dw Uma. Astrophysics and Space Science 296(1-4): 473-476
Inavalli, V.V.G.K.; Pottapinjara, V.; Viswanathan, N.K. 2012: Wavelength Dependence of the Polarization Singularities in a Two-Mode Optical Fiber. International Journal of Optics 2012: 1-7
Delosme, R. 1998: Wavelength Dependence of the Quantum Yield of Charge Separation in Photosynthesis: Photoacoustic Study of Light Energy Distribution among Various Pigment Complexes. Israel Journal of Chemistry 38(3): 237-246
Steinfeld, J.I. 1966: Wavelength Dependence of the Quenching of Iodine Fluorescence. The Journal of Chemical Physics 44(7): 2740-2749
Chen, Y.; Qun Han; Tiegen Liu; Hai Xiao, 2014: Wavelength Dependence of the Sensitivity of All-Fiber Refractometers Based on the Singlemode–Multimode–Singlemode Structure. IEEE Photonics Journal 6(4): 1-7
Matlin, A.R.; Wolff, S.; Agosta, W.C. 1983: Wavelength Dependency in the Photochemistry of 5-methyl-1,5-hexadien-3-one. Tetrahedron Letters 24(29): 2961-2964
Kumar, R.; Raghuwanshi, S.K. 2021: Wavelength Dependent Odd Frequency Multiplication Based on a Superstructure FBG. IEEE Photonics Technology Letters 33(19): 1101-1104
Kay, A.; Grave, D.A.; Deo Malviya, K.; Ellis, D.S.; Dotan, H.; Rothschild, A. 2017: Wavelength Dependent Photocurrent of Hematite Photoanodes: Reassessing the Hole Collection Length. The Journal of Physical Chemistry C 121(51): 28287-28292
Reddy, M.J.R.; Rao, G.V.; Bushan, K.M.; Reddy, M.J.R.; Gopal, V.R.; Rao, V.J. 2001: Wavelength Dependent Regioselective E(trans)→Z(cis) Photoisomerization in Anthryldienes. Chemistry Letters 30(3): 186-187
Gopal, V.R.; Reddy, A.M.; Rao, V.J. 1995: Wavelength Dependent Trans to Cis and Quantum Chain Isomerizations of Anthrylethylene Derivatives. The Journal of Organic Chemistry 60(24): 7966-7973
Behara, K.K.; Rajesh, Y.; Chaudhuri, A.; Biswas, S.; Mandal, M.; Singh, N.D.P. 2017: Wavelength Dependent, Sequentially Activated, Dual Anticancer Drug Delivery System with Photoinduced Fluorescence off-on for Real time Imaging. ChemistrySelect 2(14): 4033-4038
Hao Jiang; Chen, J.; Tundong Liu, 2014: Wavelength Detection in Spectrally Overlapped FBG Sensor Network Using Extreme Learning Machine. IEEE Photonics Technology Letters 26(20): 2031-2034
Guan, Z.; Zhang, A.P.; Liao, R.; He, S. 2007: Wavelength Detection of Coherence-Multiplexed Fiber-Optic Sensors Based on Long-Period Grating Pairs. IEEE Sensors Journal 7(1): 36-37
Brown, C.M.; Hara, H.; Kamio, S.; Feldman, U.; Seely, J.F.; Doschek, G.A.; Mariska, J.T.; Korendyke, C.M.; Lang, J.; Dere, K.P.; Culhane, L.; Thomas, R.J.; Davila, J.M. 2007: Wavelength Determination for Solar Features Observed by the EUV Imaging Spectrometer on Hinode. Publications of the Astronomical Society of Japan 59(sp 3): S865-S869
Johnson, G.D. 1977: Wavelength Determinations on Ebert Plates. Applied Spectroscopy 31(6): 565-566
Fradin, C.; Finn, P.L.; Brand, H.R.; Cladis, P.E. 1998: Wavelength Doubling Cascade to Möbius Defect Turbulence in a 3D Anisotropic Liquid. Physical Review Letters 81(14): 2902-2905
Lu, Y.; Song, W.; Tee, C.; Chan, D.S.; Low, T. 1998: Wavelength Effects in the Laser Cleaning Process. Japanese Journal of Applied Physics 37(Part 1, No. 3A): 840-844
Zechner, J.; Köhler, G.; Getoff, N.; Tatischeff, I.; Klein, R. 1981: Wavelength Effects on the Photoprocesses of Indole and Derivatives in Solution. Photochemistry and Photobiology 34(2): 163-168
Takeda, K.; Miyamoto, T.; Kondo, T.; Uchiyama, Y.; Kitabayashi, N.; Uchida, T.; Matsutani, A.; Koyama, F. 2006: Wavelength Extension Effect on Lasing Characteristics of Highly-Strained Ga in As/Ga as Vertical-Cavity Surface-Emitting Lasers with Cavity Detuning. Japanese Journal of Applied Physics 45(8B): 6691-6696
Yagci, Y. 2004: Wavelength Flexibility in Photoinitiated Cationic Polymerization. Macromolecular Symposia 215(1): 267-280
Platt, J.R. 1956: Wavelength Formulas and Configuration Interaction in Brooker Dyes and Chain Molecules. The Journal of Chemical Physics 25(1): 80-105
Herglotz, H.K. 1967: Wavelength Identification of Ultrasoft X Rays by the Critical Angle of Total Reflection. Journal of Applied Physics 38(12): 4565-4568
Rodríguez-Arteaga, H.; Cárdenas-García, D.; Cywiak-Córdova, D. 2014: Wavelength Independent Method for the Calibration of Radiation Thermometers with Fixed Emissivity of Less than one. NCSLI Measure 9(2): 56-58
Ying Gao; Yongheng Dai; Shu, C.; Sailing He, 2010: Wavelength Interchange of Phase-Shift-Keying Signal. IEEE Photonics Technology Letters 22(11): 838-840
Simsarian, J.; Zhang, L. 2004: Wavelength Locking a Fast-Switching Tunable Laser. IEEE Photonics Technology Letters 16(7): 1745-1747
Grillanda, S.; Ji, R.; Morichetti, F.; Carminati, M.; Ferrari, G.; Guglielmi, E.; Peserico, N.; Annoni, A.; Dede, A.; Nicolato, D.; Vannucci, A.; Klitis, C.; Holmes, B.; Sorel, M.; Fu, S.; Man, J.; Zeng, L.; Sampietro, M.; Melloni, A. 2017: Wavelength Locking of Silicon Photonics Multiplexer for DML-Based WDM Transmitter. Journal of Lightwave Technology 35(4): 607-614
Agarwal, S.; Ingels, M.; Pantouvaki, M.; Steyaert, M.; Absil, P.; Van Campenhout, J. 2016: Wavelength Locking of a Si Ring Modulator Using an Integrated Drop-Port OMA Monitoring Circuit. IEEE Journal of Solid-State Circuits 51(10): 2328-2344
Caragiannis, I. 2009: Wavelength Management in WDM Rings to Maximize the Number of Connections. SIAM Journal on Discrete Mathematics 23(2): 959-978
Horimai, H.; Tan, X.; Li, J.; Suzuki, K. 2005: Wavelength Margin Analysis in Advanced Collinear Holography. Japanese Journal of Applied Physics 44(5B): 3493-3494
Theissing, H.H.; McCue, J. 1955: Wavelength Measurement in the Millimeter Region. Review of Scientific Instruments 26(12): 1203-1204
Tako, T.; Ohtsu, M.; Katsuragi, S.; Ohi, M.; Akimoto, Y. 1980: Wavelength Measurement of an H2CO-Stabilized He-Xe Laser at 3.51 µm. Japanese Journal of Applied Physics 19(9): 1683-1688
Wallard, A J.; Chartier, J M.; Hamon, J. 1975: Wavelength Measurements of the Iodine Stabilized Helium-Neon Laser. Metrologia 11(2): 89-95
Nee, S.F.; Nee, T.W.; Fan, S.F.; Lynch, D.W. 1982: Wavelength Modulated Reflectance Spectrum of Zr S3. Physica status solidi (b) 113(1): K5-K8
Langlois, H.; Filion, A.; Fortin, E. 1974: Wavelength Modulated Reflectivity and Photoconductivity of Ga Sb in a Magnetic Field. Canadian Journal of Physics 52(19): 1933-1937
Fong, C.Y.; Cohen, M.L.; Zucca, R.R.L.; Stokes, J.; Shen, Y.R. 1970: Wavelength Modulation Spectrum of Copper. Physical Review Letters 25(21): 1486-1490
Zhang, M.; Wang, D.; Jin, W.; Liao, Y. 2004: Wavelength Modulation Technique for Intra-Cavity Absorption Gas Sensor. IEEE Transactions on Instrumentation and Measurement 53(1): 136-139
Yano, T.; Saitou, H.; Kanbara, N.; Noda, R.; Tezuka, S.; Fujimura, N.; Ooyama, M.; Watanabe, T.; Hirata, T.; Nishiyama, N. 2009: Wavelength Modulation over 500 k Hz of Micromechanically Tunable in P-Based VCSELs with Si-MEMS Technology. IEEE Journal of Selected Topics in Quantum Electronics 15(3): 528-534
Chagnon, M.; Spasojevic, M.; Adams, R.; Jia Li; Plant, D.V.; Chen, L.R. 2015: Wavelength Multicasting at 22-GBaud 16-QAM in a Silicon Nanowire Using Four-Wave Mixing. IEEE Photonics Technology Letters 27(8): 860-863
Bres, C.; Wiberg, A.; Kuo, B.; Alic, N.; Radic, S. 2009: Wavelength Multicasting of 320-Gb/s Channel in Self-Seeded Parametric Amplifier. IEEE Photonics Technology Letters 21(14): 1002-1004
Trohalaki, S. 2005: Wavelength Multiplexing of Microsphere Resonators Used to Characterize Nanolayers. MRS Bulletin 30(4): 264-265
Pan, M.; Chen, L.; Yan, C.; Pan, M. 2015: Wavelength Optimization of Spectral Near-infrared Optical Tomography Using Available Laser Diodes. 7th WACBE World Congress on Bioengineering 2015: 202-205
Moriwaki, O.; Noguchi, K.; Sakamoto, T.; Kamei, S.; Takahashi, H. 2009: Wavelength Path Reconfigurable AWG-STAR Employing Coprime-Channel-Cycle Arrayed-Waveguide Gratings. IEEE Photonics Technology Letters 21(14): 1005-1007
Yamaguchi, S. 1962: Wavelength Perturbation in Electron Diffraction for Magnetic Analysis. Review of Scientific Instruments 33(6): 690-691
Hurtado, A.; Henning, I.; Adams, M. 2009: Wavelength Polarization Switching and Bistability in a 1550-nm VCSEL Subject to Polarized Optical Injection. IEEE Photonics Technology Letters 21(15): 1084-1086
Chang, S.; Mao, Y. 2011: Wavelength Probing Optical Coherence Tomography. Journal of Innovative Optical Health Sciences 04(01): 79-88
Chow, C.W. 2008: Wavelength Remodulation Using DPSK Down-and-Upstream with High Extinction Ratio for 10-Gb/s DWDM-Passive Optical Networks. IEEE Photonics Technology Letters 20(1): 12-14
Zhu, M.; Li, F.; Lu, F.; Yu, J.; Su, C.; Gu, G.; Chang, G. 2015: Wavelength Resource Sharing in Bidirectional Optical Mobile Fronthaul. Journal of Lightwave Technology 33(15): 3182-3188
Chen, Y.; Li, J.; Zhu, J.; Zhu, P.; Tian, Y.; Peng, H.; Xu, Y.; Chen, J.; He, Y.; Chen, Z. 2017: Wavelength Reuse for Short-Reach Optical Access Network Utilizing MDM. IEEE Photonics Journal 9(2): 1-8
Chen, X.; Yao, J. 2016: Wavelength Reuse in a Symmetrical Radio over WDM-PON Based on Polarization Multiplexing and Coherent Detection. Journal of Lightwave Technology 34(4): 1150-1157
Chen, X.; Yao, J. 2017: Wavelength Reuse in an Ro F Link Based on CS-DSB, Coherent Detection and DSP. IEEE Photonics Technology Letters 29(12): 975-978
Okayama, H.; Kobayashi, M.; Xu, C.; Takemasa, K.; Kamijoh, T. 1998: Wavelength Router Using Bridged Planar Spectrographs. Japanese Journal of Applied Physics 37(Part 1, No. 6B): 3718-3722
Kennington, J.; Olinick, E.; Ortynski, A.; Spiride, G. 2003: Wavelength Routing and Assignment in a Survivable WDM Mesh Network. Operations Research 51(1): 67-79
Gardner, J.H.; Bodner, S.E. 1981: Wavelength Scaling for Reactor-Size Laser-Fusion Targets. Physical Review Letters 47(16): 1137-1140
Weber, K.; Nesterov, M.L.; Weiss, T.; Scherer, M.; Hentschel, M.; Vogt, J.; Huck, C.; Li, W.; Dressel, M.; Giessen, H.; Neubrech, F. 2016: Wavelength Scaling in Antenna-Enhanced Infrared Spectroscopy: Toward the Far-IR and THz Region. ACS Photonics 4(1): 45-51
Zhao, J.; Zhang, L.; Wu, T.; Zhang, C.; Zhao, Y. 2016: Wavelength Scaling of Terahertz Wave Absorption via Preformed Air Plasma. IEEE Transactions on Terahertz Science and Technology 6(6): 846-850
Bitou, Y.; Seta, K. 2002: Wavelength Scanning Gauge Block Interferometer Using a Spatial Light Modulator. Japanese Journal of Applied Physics 41(Part 1, No. 1): 384-388
De, S.; Jana, D.; Medda, S.K.; De, G. 2013: Wavelength Selective Antireflective Coatings on Plastics with Hydrophobic Surfaces. Industrial-Engineering Chemistry Research 52(23): 7737-7745
Rosenberg, M. 2012: Wavelength Selective Infrared Absorption in a Dusty Plasma. IEEE Transactions on Plasma Science 40(4): 1229-1233
Vieira, M.; Louro, P.; Vieira, M.A.; Costa, J.; Fernandes, M.; Fantoni, A. 2010: Wavelength Selective a-Si C:H p-i-n/p-i-n Heterostructure for Fluorescent Proteins Detection. Sensor Letters 8(3): 413-418
Baik, J.; Park, K.; Oh, T.; Lee, C. 2004: Wavelength Self-Managed Optical WDM Source Using Polarization-Multiplexed Fabry–PÉrot Laser Diodes. IEEE Photonics Technology Letters 16(10): 2347-2349
He, J.; Du, Y.; Zhuang, Z.; Wen, W.; Liu, H.; Wang, K.; Qiu, P. 2018: Wavelength Separation Tunable 2-Color Soliton Generation and its Application to 2-Color Fluorescence Multiphoton Microscopy. Journal of Lightwave Technology 36(16): 3249-3253
Xu, M.; Chi, Y.; Wang, J.; Cheng, L.; Lu, F.; Khalil, M.I.; Tsai, C.; Lin, G.; Chang, G. 2015: Wavelength Sharing and Reuse in Dual-Band WDM-PON Systems Employing WRC-FPLDs. IEEE Photonics Technology Letters 27(17): 1821-1824
Kim, E.; Jeon, S.; Kim, S.; Kim, D.; Lee, J.; Choi, Y. 2020: Wavelength Shift Measurement with Resonance Characteristic Prediction Algorithm Using Intensities at Discrete Wavelengths. IEEE Transactions on Instrumentation and Measurement 69(8): 5666-5672
Sponer, H. 1954: Wavelength Shifts in the near Ultraviolet Spectra of Fluorinated Benzenes. The Journal of Chemical Physics 22(2): 234-235
Coates, P B. 1977: Wavelength Specification in Optical and Photoelectric Pyrometry. Metrologia 13(1): 1-5
Liu, K.; Jing, W.; Peng, G.; Zhang, J.; Wang, Y.; Liu, T.; Jia, D.; Zhang, H.; Zhang, Y. 2008: Wavelength Sweep of Intracavity Fiber Laser for Low Concentration Gas Detection. IEEE Photonics Technology Letters 20(18): 1515-1517
Xie, L.; Fang, F.; Sun, B.; Chen, M.; Zhang, Z. 2019: Wavelength Switchable Mode-Locked Fiber Laser with Tapered Two-Mode Fiber. IEEE Photonics Journal 11(5): 1-8
Li, Y.; Shen, Y.; Tian, J.; Fu, Q.; Yao, Y. 2021: Wavelength Switchable Multi-Wavelength Erbium-Doped Fiber Laser Based on Polarization-Dependent Loss Modulation. Journal of Lightwave Technology 39(1): 243-250
Wu, L.; Wang, Y.; Yu, T.; Wang, L.; He, J. 2012: Wavelength Switchable Semiconductor Laser Based on Half-Wave Coupled Fabry–Pérot and Rectangular Ring Resonators. IEEE Photonics Technology Letters 24(12): 991-993
Das, G.; Lit, J. 2004: Wavelength Switching of a Fiber Laser with a Sagnac Loop Reflector. IEEE Photonics Technology Letters 16(1): 60-62
Zhuang, Y.; Tanabe, S.; Qiu, J. 2014: Wavelength Tailorability of Broadband Near-Infrared Luminescence in Cr4+ -Activated Transparent Glass-Ceramics. Journal of the American Ceramic Society 97(11): 3519-3523
Fresi, F.; Porzi, C.; Guina, M.; Orsila, L.; Poti, L.; Bogoni, A. 2009: Wavelength Transparency of All-Optical Packet Envelope Detection Circuit for RZ-Format Optical Packet Switching Applications. IEEE Photonics Technology Letters 21(20): 1565-1567
Kim, D.S.; Lee, S.; Kim, J.H.; Woo, D.H.; Kim, S.H.; Han, S.K. 2002: Wavelength Tunability of Laterally Coupled Semiconductor Optical Amplifier and Semiconductor Laser Diode. Japanese Journal of Applied Physics 41(Part 2, No. 5B): L574-L576
Martinez-Manuel, R.; Monga, K.J.; Meyer, J. 2021: Wavelength Tunable Actively Q-Switched Fiber Laser. IEEE Photonics Technology Letters 33(1): 39-42
Chou, H.; Huang, W. 2021: Wavelength Tunable Asymmetric B-OWC System Based on Self-Injection Locking for TDM-PONs. IEEE Photonics Technology Letters 33(7): 370-372
Li, X.; Wang, C.; Jin, H.; Zhao, C.; Wang, G.; Yu, H.; Zhou, H.; Yang, J.; Jiang, X. 2016: Wavelength Tunable Cavity Mirror for Silicon Micro-Ring-Based Hybrid Integrated Lasers. IEEE Photonics Technology Letters 28(9): 935-938
Javorsky, I.B.; Silva, R.E.; Pohl, A.A.P. 2019: Wavelength Tunable Filter Based on Acousto-Optic Modulation of a Double-Core Fiber. IEEE Photonics Technology Letters 31(14): 1135-1138
Engelstaedter, J.P.; Roycroft, B.; Peters, F.H.; Corbett, B. 2010: Wavelength Tunable Laser Using an Interleaved Rear Reflector. IEEE Photonics Technology Letters 22(1): 54-56
Zhao, X.; Liu, Y.; Liu, Z.; Mou, C.; Shen, L.; Zhang, L.; Luo, J. 2020: Wavelength Tunable OAM Mode Converters Based on Chiral Long-Period Gratings. IEEE Photonics Technology Letters 32(24): 1519-1522
Kato, A.; Nakatsuhara, K.; Nakagami, T. 2013: Wavelength Tunable Operation in Si Waveguide Grating that Has a Ferroelectric Liquid Crystal Cladding. Journal of Lightwave Technology 31(2): 349-354
Zhang, Q.; Shang, Q.; Shi, J.; Chen, J.; Wang, R.; Mi, Y.; Du, W.; Shen, C.; Ma, R.; Qiu, X.; Liu, X.; Sum, T.C. 2017: Wavelength Tunable Plasmonic Lasers Based on Intrinsic Self-Absorption of Gain Material. ACS Photonics 4(11): 2789-2796
Jung, H.S.; Eknoyan, O.; Taylor, H.F. 1999: Wavelength Tunable Polarization Mode Converter Utilizing Strain-Optic Effects in Ti:Li Nb O 3. Japanese Journal of Applied Physics 38(Part 2, No. 12A): L1406-L1408
Feng, Y.; Li, X.; Zhang, S.; Han, M.; Liu, J.; Yang, Z. 2017: Wavelength Tunable Q-Switched Fiber Laser Using Variable Attenuator Based on Tapered Fiber. IEEE Photonics Technology Letters 29(24): 2175-2178
Zhang, S.; Liu, X.; Chen, L.; Zhang, C.; Bai, H.; Wu, J.; Shi, J.; Li, H.; Liu, Y. 2021: Wavelength Tunable Single-Circular-Polarization Twisted PCF. IEEE Photonics Technology Letters 33(24): 1355-1358
Su, J.; Cui, L.; Li, X. 2018: Wavelength Tunable Source of Correlated Photon Pairs Based on Photonic Crystal Fiber. IEEE Photonics Technology Letters 30(10): 907-910
Kato, K. 1972: Wavelength Tunable UV Dye Laser Pumped by the Fourth Harmonic of Nd:YAG Laser. Japanese Journal of Applied Physics 11(6): 912-913
Deng, H.; Meng, J.; Xiong, X.; He, J. 2016: Wavelength Tunable V-Cavity Laser Employing Integrated Thin-Film Heaters. IEEE Photonics Journal 8(4): 1-8
Park, H.; Lee, H.; Kim, C.; Park, M.; Ryu, S. 2006: Wavelength Tuning Characteristics of an Etched Bragg Grating on a Silica Waveguide with Polymer Overcladding. Japanese Journal of Applied Physics 45(28): L734-L736
Zhang, J.; Chen, F.; Sun, B.; Li, C. 2013: Wavelength Tuning for Li Nb O3 Photonic Sensor to have Linear Operation Point. Microwave and Optical Technology Letters 55(10): 2326-2329
Jeon, J.; Hwang, J.; More, V.M.; Kim, D.; Kim, Y.; Lee, S.J. 2021: Wavelength Tuning of Type-Ii Superlattice Spectral Response Using a Square Coaxial Aperture Array. Journal of Lightwave Technology 39(14): 4684-4689
Yang, S.; Jeong-Kwon Son; Hong, Y.; Song, Y.; Jang, H.; Seong-jun Bae; Yong-Ho Lee; Yang, G.; Hyun-Sung Ko; Gun-Yong Sung, 2008: Wavelength Tuning of Vertical-Cavity Surface-Emitting Lasers by an Internal Device Heater. IEEE Photonics Technology Letters 20(20): 1679-1681
Wood, S.M.; Fells, J.A.J.; Elston, S.J.; Morris, S.M. 2016: Wavelength Tuning of the Photonic Band Gap of an Achiral Nematic Liquid Crystal Filled into a Chiral Polymer Scaffold. Macromolecules 49(22): 8643-8652
Zah, C.; Amersfoort, M.; Pathak, B.; Favire, F.; Lin, P.; Rajhel, A.; Andreadakis, N.; Bhat, R.; Caneau, C.; Koza, M. 1996: Wavelength accuracy and output power of multiwavelength DFB laser arrays with integrated star couplers and optical amplifiers. IEEE Photonics Technology Letters 8(7): 864-866
Warren, M.W.; Avery, J.P.; Malmstadt, H.V. 1982: Wavelength accuracy of a microprocessor-controlled ultraviolet/visible monochromator. Analytical Chemistry 54(11): 1826-1828
Esquivel, J.B. 1988: Wavelength accuracy testing of UV-visible detectors in liquid chromatography. Chromatographia 26(1): 321-323
Sabrigiriraj, M.; Manoharan, K. 2019: Wavelength allocation for all-to-all broadcast in bidirectional optical WDM modified ring. Optik 179: 545-556
Pérez, J.F.; Van Houdt, B. 2009: Wavelength allocation in an optical switch with a fiber delay line buffer and limited-range wavelength conversion. Telecommunication Systems 41(1): 37-49
Nakayama, Y.; Hisano, D. 2019: Wavelength and Bandwidth Allocation for Mobile Fronthaul in TWDM-PON. IEEE Transactions on Communications 67(11): 7642-7655
Onton, A.; Fern, R.E. 1974: Wavelength and Intensity Tracking System. Applied Spectroscopy 28(6): 558-563
Cardona-Maya, Y.; Del Villar, I.; Socorro, A.B.; Corres, J.M.; Matias, I.R.; Botero-Cadavid, J.F. 2017: Wavelength and Phase Detection Based SMS Fiber Sensors Optimized with Etching and Nanodeposition. Journal of Lightwave Technology 35(17): 3743-3749
Maekawa, H.; Drobnyh, E.; Lancaster, C.A.; Large, N.; Schatz, G.C.; Shumaker-Parry, J.S.; Sukharev, M.; Ge, N. 2020: Wavelength and Polarization Dependence of Second-Harmonic Responses from Gold Nanocrescent Arrays. The Journal of Physical Chemistry C 124(37): 20424-20435
Fujita, M.; Ohkawa, H.; Somekawa, T.; Otsuka, M.; Maeda, Y.; Matsutani, T.; Miyanaga, N. 2016: Wavelength and Pulsewidth Dependences of Laser Processing of CFRP. Physics Procedia 83: 1031-1036
Kriso, C.; Kress, S.; Munshi, T.; Grossmann, M.; Bek, R.; Jetter, M.; Michler, P.; Stolz, W.; Koch, M.; Rahimi-Iman, A. 2020: Wavelength and Pump-Power Dependent Nonlinear Refraction and Absorption in a Semiconductor Disk Laser. IEEE Photonics Technology Letters 32(2): 85-88
Budz, A.J.; Haugen, H.K. 2007: Wavelength and Repetition-Rate Tunable Mode-Locked Semiconductor-Seed-Source for Yb-Fiber-Amplifier Systems. IEEE Photonics Technology Letters 19(19): 1412-1414
Gaab, K.M.; Bardeen, C.J. 2004: Wavelength and Temperature Dependence of the Femtosecond Pump−Probe Anisotropies in the Conjugated Polymer MEH-PPV:  Implications for Energy-Transfer Dynamics. The Journal of Physical Chemistry B 108(15): 4619-4626
Feitelson, J.; Stein, G. 1972: Wavelength and Temperature Dependent Effects on Hydrated Electron Formation and Fluorescence of β‐Naphtholate. The Journal of Chemical Physics 57(12): 5378-5382
Du, K.; Li, Q.; Zhang, W.; Yang, Y.; Qiu, M. 2015: Wavelength and Thermal Distribution Selectable Microbolometers Based on Metamaterial Absorbers. IEEE Photonics Journal 7(3): 1-8
Scheul, T.E.; Khorani, E.; Rahman, T.; Charlton, M.D.; Boden, S.A. 2020: Wavelength and angle resolved reflectance measurements of pyramidal textures for crystalline silicon photovoltaics. Progress in Photovoltaics: Research and Applications 28(12): 1248-1257
Das, A.; Pradhan, M. 2021: Wavelength and chemical potential dependence of optical beam shifts in graphene. Journal of Modern Optics 68(3): 146-152
Sussman, S.; Alben, R.; Selders, M.; Chang, R.; Callender, R. 1973: Wavelength and concentration dependence of Raman scattering from Cd S1−x Sex. Solid State Communications 13(7): 799-802
Greenfield, S.R.; Seibert, M.; Govindjee; Wasielewski, M.R. 1996: Wavelength and intensity dependent primary photochemistry of isolated Photosystem Ii reaction centers at 5°C. Chemical Physics 210(1-2): 279-295
Gadonas, R.; Feller, K.; Pugzlys, A.; Jonusauskas, G.; Oberlé, J.; Rullière, C. 1997: Wavelength and intensity-dependent transient degenerate four-wave mixing in pseudoisocyanine J-aggregates. The Journal of Chemical Physics 106(20): 8374-8383
Novero, C.; Godone, A. 1990: Wavelength and isotopic shift measurements of the3S(3s 4s) ?3P(3s 3p) Mg i transitions. Zeitschrift fr Physik D Atoms, Molecules and Clusters 17(1): 33-35
Trbert, E. 1986: Wavelength and lifetime data on intercombination transitions in the Si i isoelectronic sequence: Ni14+ and Cu15+. Zeitschrift fr Physik D Atoms, Molecules and Clusters 2(3): 213-222
Coelho, A.D.; de Souza, C.K.; Bertolucci, S.K.V.; de Carvalho, A.A.; Santos, G.C.; de Oliveira, T.; Marques, E.A.; Salimena, J.P.; Pinto, J.E.B.P. 2021: Wavelength and light intensity enhance growth, phytochemical contents and antioxidant activity in micropropagated plantlets of Urtica dioica L. Plant Cell, Tissue and Organ Culture (PCTOC) 145(1): 59-74
Sarlet, G.; Morthier, G.; Baets, R. 1999: Wavelength and mode stabilization of widely tunable SG-DBR and SSG-DBR lasers. IEEE Photonics Technology Letters 11(11): 1351-1353
Bubb, D.M.; Federici, J.F.; Tidrow, S.C.; Wilber, W.; Kim, J.; Piqué, A. 1999: Wavelength and photon dose dependence of infrared quenched persistent photoconductivity in YBa2Cu3O6+x. Physical Review B 60(9): 6827-6833
Misawa, K.; Machida, S.; Horie, K.; Kobayashi, T. 1995: Wavelength and polarization dependence of spectral hole-burning efficiency in highly oriented J-aggregates. Chemical Physics Letters 240(1-3): 210-215
Zhang, Y.; Xiaoming Liu; Peng, J.; Xue Feng; Wei Zhang, 2002: Wavelength and power dependence of injected C-band laser on pump conversion efficiency of L-band EDFA. IEEE Photonics Technology Letters 14(3): 290-292
Schulz, J.; U. Fritze – v. Alvensleben; Fricke, K.J. 2003: Wavelength and redshift dependence of bulge/total light ratios in galaxies. Astronomy-Astrophysics 398(1): 89-100
Perera, M.N.M.N.; Gibbs, W.E.K.; Juodkazis, S.; Stoddart, P.R. 2017: Wavelength and refractive index dependence of the geometrical enhancement in surface-enhanced Raman scattering. Journal of Raman Spectroscopy 48(9): 1182-1189
Ju Han Lee; You Min Chang; Young-Geun Han; Sang-Hyuck Kim; Chung, H.; Sang Bae Lee, 2005: Wavelength and repetition rate tunable optical pulse source using a chirped fiber Bragg grating and a nonlinear optical loop mirror. IEEE Photonics Technology Letters 17(1): 34-36
Goulden, J D S. 1953: Wavelength and slit-drive mechanisms for an infra-red spectrometer. Journal of Scientific Instruments 30(4): 139-140
Jones Ii, G.; Becker, W.G. 1981: Wavelength and solvent effects on ionic photodissociation of charge-transfer complexes. the hexamethyl (Dewar benzene) system. Journal of the American Chemical Society 103(15): 4630-4632
Takahashi, K.; Taniguchi, N.; Matsumi, Y.; Kawasaki, M.; Ashfold, M.N.R. 1998: Wavelength and temperature dependence of the absolute O(1D) production yield from the 305–329 nm photodissociation of ozone. The Journal of Chemical Physics 108(17): 7161-7172
McGreer, K.A.; Moss, D.; Williams, R.L.; Dion, M.; Landheer, D. 1992: Wavelength and threshold current variation in inhomogeneously pumped in Ga As/Al Ga as single and double quantum well ridge wave-guide lasers. Canadian Journal of Physics 70(10-11): 908-913
Valat, P.; Tourbez, H.; Reiss, C.; Gex, J.; Schelev, M. 1978: Wavelength and time evolution of multiple stimulated Raman spectra in CCl4 excited by an intense picosecond laser pulse. Optics Communications 25(3): 407-411
Cole, B.E.; Ederer, D.L.; Stockbauer, R.; Codling, K.; Parr, A.C.; West, J.B.; Poliakoff, E.D.; Dehmer, J.L. 1980: Wavelength and vibrational‐state dependence of photoelectron angular distributions. Resonance effects in 5 σ photoionization of CO. The Journal of Chemical Physics 72(11): 6308-6310
Stebbing, G.F. 1938: Wavelength as a Factor in RadioTherapy. The British Journal of Radiology 11(123): 177-182
Wang, J.; Xiangtong Qi; Biao Chen, 2006: Wavelength assignment for multicast in all-optical WDM networks with splitting constraints. IEEE/ACM Transactions on Networking 14(1): 169-182
Ganz, A.; Gong, W.; Xudong Wang, 1994: Wavelength assignment in multihop lightwave networks. IEEE Transactions on Communications 42(7): 2460-2469
Moreschini, M.; Matera, F.; Settembre, M. 2002: Wavelength assignment in optical networks according to traffic requirements and transmission impairments. IFIP Advances in Information and Communication Technology: 351-356
Jia, X.; Du, D.; Hu, X.; Li, D. 2004: Wavelength assignment to lightpaths for minimal wavelength conversions in multihop WDM networks. Computer Communications 27(9): 880-889
Wan, P.; Liu, L.; Frieder, O. 2003: Wavelength assignment to minimize requirement on tunable range of optical transceivers in WDM networks. Computer Communications 26(7): 774-779
Lu, C.; Newell, T.; Glebov, L.; Balakrishnan, G. 2015: Wavelength beam combining of VECSELs using multiplexed volume Bragg gratings in a compound cavity. Electronics Letters 51(6): 508-510
J.–P. De Cuyper; Hensberge, H. 1998: Wavelength calibration at moderately high resolution. Astronomy and Astrophysics Supplement Series 128(2): 409-416
Wang, S.; Qin, H.; Ye, Z. 2010: Wavelength calibration by combining arc and night sky lines for LAMOST. Experimental Astronomy 28(2-3): 195-208
Redondas, A.; Nevas, S.; Berjón, A.; Sildoja, M.; León-Luis, S.F.; Carreño, V.; Santana-Díaz, D. 2018: Wavelength calibration of Brewer spectrophotometer using a tunable pulsed laser and implications to the Brewer ozone retrieval. Atmospheric Measurement Techniques 11(6): 3759-3768
Li, Q.; Zhang, C.; Yan, T.; Quan, N.; Wei, Y.; Tong, C. 2017: Wavelength calibration of an imaging spectrometer based on Savart interferometer. Optics Communications 398: 24-30
Kim, J.; Han, J.; Jeong, J. 2016: Wavelength calibration of dispersive near-infrared spectrometer using relative k-space distribution with low coherence interferometer. Optics Communications 367: 186-191
Gohil, P.; Burrell, K.H.; Groebner, R.J.; Holtrop, K.; Kaplan, D.H.; Monier-Garbet, P. 1999: Wavelength calibration of the charge exchange recombination spectroscopy system on the DIII-D tokamak. Review of Scientific Instruments 70(1): 878-881
Chavez Boggio, J.; Fremberg, T.; Bodenmüller, D.; Sandin, C.; Zajnulina, M.; Kelz, A.; Giannone, D.; Rutowska, M.; Moralejo, B.; Roth, M.; Wysmolek, M.; Sayinc, H. 2018: Wavelength calibration with PMAS at 3.5 m Calar Alto Telescope using a tunable astro-comb. Optics Communications 415: 186-193
Xiao, Y.; Wu, Y. 2001: Wavelength channel bandwidth of wavelength-selective devices. Journal of Shanghai University (English Edition) 5(1): 48-52
Chen, Y.; Wartak, M.S. 1997: Wavelength chirp of DFB lasers with carrier transport. Microwave and Optical Technology Letters 15(5): 291-294
Sanjoh, H.; Mawatari, H.; Ishii, H.; Yasaka, H.; Yoshikuni, Y.; Oe, K. 1996: Wavelength chirping in wavelength conversion of 10 Gb/s signal with semiconductor laser converter. IEEE Photonics Technology Letters 8(2): 296-298
Xiang Zhang, X.Z.; Fan Gao, F.G.; Jiansheng Feng, J.F.; Kuaisheng Zou, K.Z.; Baoxing Xiong, B.X.; Xiao Yuan, X.Y. 2014: Wavelength combining with volume Bragg gratings in photo-thermo-refractive glasses. Chinese Optics Letters 12(3): 030901-30903
Passaseo, A.; Maruccio, G.; De Vittorio, M.; Rinaldi, R.; Cingolani, R.; Lomascolo, M. 2001: Wavelength control from 1.25 to 1.4 μm in Inx Ga1−x as quantum dot structures grown by metal organic chemical vapor deposition. Applied Physics Letters 78(10): 1382-1384
Sarangan, A.; Huang, W.; Makino, T.; Li, G. 1996: Wavelength control in DFB laser arrays by tilting the ridge with respect to the gratings. IEEE Photonics Technology Letters 8(11): 1435-1437
Mori, J.; Nakano, T.; Shimada, T.; Hasegawa, S.; Asahi, H. 2004: Wavelength control of 1.3–1.6 μm light emission from the quantum dots self-formed in Ga As∕in as short-period superlattices grown on in P (411)A substrates. Journal of Applied Physics 96(3): 1373-1375
Frey, M.; Ndousse, T. 2001: Wavelength conversion and call connection probability in WDM networks. IEEE Transactions on Communications 49(10): 1780-1787
Razzari, L.; Liberale, C.; Cristiani, I.; Tediosi, R.; Degiorgio, V. 2003: Wavelength conversion and pulse reshaping through cascaded interactions in an MZi configuration. IEEE Journal of Quantum Electronics 39(11): 1486-1491
D'Ottavi, A.; Spano, P.; Hunziker, G.; Paiella, R.; Dall'Ara, R.; Guekos, G.; Vahala, K. 1998: Wavelength conversion at 10 Gb/s by four-wave mixing over a 30-nm interval. IEEE Photonics Technology Letters 10(7): 952-954
Awang, N.; Ahmad, H.; Latif, A.; Zulkifli, M.; Ghani, Z.; Harun, S. 2011: Wavelength conversion based on FWM in a HNLF by using a tunable dual-wavelength erbium doped fibre laser source. Journal of Modern Optics 58(7): 566-572
Nan Chi; Jiang Qi; Lin Xu; Zhen, Y.; Guan, K.; Shuqiang Chen, 2001: Wavelength conversion based on FWM with double orthogonal pump in a semiconductor-fiber ring laser. IEEE Photonics Technology Letters 13(5): 499-501
Liu Deming; Ng Jun Hong; Lu Chao, 2000: Wavelength conversion based on cross-gain modulation of ASE spectrum of SOA. IEEE Photonics Technology Letters 12(9): 1222-1224
Dou, R.; Yu, C.; Wang, K.; Wang, Y.; Sang, X.; Zhang, Q.; Yan, B. 2012: Wavelength conversion based on nonlinear polarization rotation in gain transparent SOA. Optoelectronics Letters 8(4): 289-292
Sun, J. 2005: Wavelength conversion between picosecond pulses in periodically poled Li Nb O3 waveguides using pulsed pumping. Microwave and Optical Technology Letters 46(5): 464-466
Paiella, R.; Hunziker, G.; Ziari, M.; Mathur, A.; Vahala, K. 1998: Wavelength conversion by cavity-enhanced injection-locked four-wave mixing in a fiber-Bragg-grating coupled diode laser. IEEE Photonics Technology Letters 10(6): 802-804
Yoo, S.J.B.; Caneau, C.; Bhat, R.; Koza, M.A.; Rajhel, A.; Antoniades, N. 1996: Wavelength conversion by difference frequency generation in Al Ga as waveguides with periodic domain inversion achieved by wafer bonding. Applied Physics Letters 68(19): 2609-2611
Hsu, A.; Chuang, S. 2003: Wavelength conversion by dual-pump four-wave mixing in an integrated laser modulator. IEEE Photonics Technology Letters 15(8): 1120-1122
Geraghty, D.; Lee, R.; Verdiell, M.; Ziari, M.; Mathur, A.; Vahala, K. 1998: Wavelength conversion by four-wave mixing in semiconductor optical amplifiers. IEEE Photonics Technology Letters 10(1): 69-71
Joergensen, C.; Danielsen, S.; Durhuus, T.; Mikkelsen, B.; Stubkjaer, K.; Vodjdani, N.; Ratovelomanana, F.; Enard, A.; Glastre, G.; Rondi, D.; Blondeau, R. 1996: Wavelength conversion by optimized monolithic integrated Mach-Zehnder interferometer. IEEE Photonics Technology Letters 8(4): 521-523
Oh, J.J.; Jin, B.K.; Chung, W.J.; Shin, D.W.; Choi, Y.G. 2011: Wavelength conversion characteristics of Eu3+/Yb3+-activated La2O2S luminophor. Current Applied Physics 11(4): S15-S18
Hanioka, M.; Furukawa, Y.; Samata, H. 2019: Wavelength conversion characteristics of Y1–– Er Yb Ba Zn3Al O7. Optik 180: 1043-1048
Kim, C.W.; Shin, W.J.; Choi, M.J.; Lee, J.H.; Nam, S.H.; Suh, Y.D.; Kang, Y.S.; Kang, Y.S. 2016: Wavelength conversion effect-assisted dye-sensitized solar cells for enhanced solar light harvesting. Journal of Materials Chemistry A 4(30): 11908-11915
Giles, R.; Zirngibl, M.; Strasser, T.; Joyner, C.; Stulz, L. 1997: Wavelength conversion in a 1550-nm multifrequency laser. IEEE Photonics Technology Letters 9(1): 43-45
Raghunathan, V.; Claps, R.; Dimitropoulos, D.; Jalali, B. 2004: Wavelength conversion in silicon using Raman induced four-wave mixing. Applied Physics Letters 85(1): 34-36
Ghafouri-Shiraz, H. 2005: Wavelength conversion in tapered-waveguide laser diode amplifiers. Microwave and Optical Technology Letters 45(2): 134-142
Mi, L.; Xu, J.; Feng, Y.; Cao, L.; Xue, M.; Huang, Y.; Chen, C.; Seo, H.J. 2018: Wavelength conversion of Yb3+-activated Y4Cd Mo3O16 from near UV-region to IR emission. Materials Chemistry and Physics 204: 216-221
Andersen, P.; Tokle, T.; Yan Geng; Peucheret, C.; Jeppesen, P. 2005: Wavelength conversion of a 40-Gb/s RZ-DPSK signal using four-wave mixing in a dispersion-flattened highly nonlinear photonic crystal fiber. IEEE Photonics Technology Letters 17(9): 1908-1910
Jansen, S.; Chayet, H.; Granot, E.; Ezra, S.; den van Borne, D.; Krummrich, P.; Chen, D.; Khoe, G.; De Waardt, H. 2005: Wavelength conversion of a 40-gb/s NRZ signal across the entire C-band by an asymmetric Sagnac loop. IEEE Photonics Technology Letters 17(10): 2137-2139
Tuan, T.H.; Zhang, L.; Suzuki, T.; Ohishi, Y. 2016: Wavelength conversion performance in a tellurite step-index optical fiber. Optics Communications 381: 282-285
Chen, M.; Tan, Y.; Li, T. 2010: Wavelength conversion technique based on self phase modulation in highly nonlinear microstructure fiber. Optoelectronics Letters 6(4): 278-280
Yoo, S. 1996: Wavelength conversion technologies for WDM network applications. Journal of Lightwave Technology 14(6): 955-966
Geraghty, D.; Lee, R.; Vahala, K.; Verdiell, M.; Ziari, M.; Mathur, A. 1997: Wavelength conversion up to 18 nm at 10 Gb/s by four-wave mixing in a semiconductor optical amplifier. IEEE Photonics Technology Letters 9(4): 452-454
Chih-Cheng Lu; Jiang, S.; Yeh, P.; Heim, P.; Wood, C.; Dagenais, M. 1996: Wavelength conversion using a T-gate laser. IEEE Photonics Technology Letters 8(1): 52-54
Inoue, K.; Takahashi, H.; Suzuki, S.; Oda, K. 1995: Wavelength conversion using a light injected DFB-LD and a Mach-Zehnder filter with a ring resonator. IEEE Photonics Technology Letters 7(9): 998-1000
Liu, Y.; Hill, M.; Tangdiongga, E.; de Waardt, H.; Calabretta, N.; Khoe, G.; Dorren, H. 2003: Wavelength conversion using nonlinear polarization rotation in a single semiconductor optical amplifier. IEEE Photonics Technology Letters 15(1): 90-92
Shan, D.M.; Chua, K.C.; Mohan, G. 2012: Wavelength converter allocation considering the streamline effect in OBS networks. Computer Communications 35(16): 2035-2043
Xiaowen Chu; Bo Li; Chlamtac, I. 2003: Wavelength converter placement under different RWA algorithms in wavelength-routed all-optical networks. IEEE Transactions on Communications 51(4): 607-617
Ribeiro, N.S.; Gallep, C.M.; Conforti, E. 2008: Wavelength converters characterization based on four-wave mixing and cross-gain modulation using semiconductor optical amplifiers of diverse cavity lengths. Microwave and Optical Technology Letters 50(12): 3246-3251
Bravo-Abad, J. 2003: Wavelength de-multiplexing properties of a single aperture flanked by periodic arrays of indentations. Photonics and Nanostructures - Fundamentals and Applications 1(1): 55-62
Ribeiro, R.; Martins, L.; Werneck, M. 2005: Wavelength demodulation of ultrabright green light-emitting diodes for electrical current sensing. IEEE Sensors Journal 5(1): 38-47
Kawakita, Y.; Shimotaya, S.; Kawai, A.; Machida, D.; Shimomura, K. 2005: Wavelength demultiplexer using Ga in As-in P MQW-based variable refractive-index arrayed waveguides fabricated by selective MOVPE. IEEE Journal of Selected Topics in Quantum Electronics 11(1): 211-216
Gerken, M.; Miller, D. 2003: Wavelength demultiplexer using the spatial dispersion of multilayer thin-film structures. IEEE Photonics Technology Letters 15(8): 1097-1099
Zhu, Z.; Ye, W.; Ji, J.; Yuan, X.; Zen, C. 2008: Wavelength demultiplexers based on multimode interference effect in photonic crystals. Physics Letters A 372(14): 2534-2538
Chung, K.B.; Hong, S.W. 2002: Wavelength demultiplexers based on the superprism phenomena in photonic crystals. Applied Physics Letters 81(9): 1549-1551
Simova, E.; Kavehrad, M.; Stoev, K. 1997: Wavelength demultiplexing by chirped waveguide gratings. Optics Communications 134(1-6): 330-340
Breer, S.; Buse, K. 1998: Wavelength demultiplexing with volume phase holograms in photorefractive lithium niobate. Applied Physics B: Lasers and Optics 66(3): 339-345
Ullman, E.F.; Weinkam, R. 1970: Wavelength dependence and orbital symmetry controlled sensitizer selectivity in the photochemistry of 2-benzal-5-methylcyclopentanone. Journal of the American Chemical Society 92(17): 5256-5258
Ohlen, P.; Olsson, B.; Blumenthal, D. 2000: Wavelength dependence and power requirements of a wavelength converter based on XPM in a dispersion-shifted optical fiber. IEEE Photonics Technology Letters 12(5): 522-524
Lima, J.F.D.; Iha, N.Y.M. 1996: Wavelength dependence and solvent effects on the ligand field photochemistry: the ring closure process in the excited [Fe(CN)5(tn)]3− complex. Canadian Journal of Chemistry 74(4): 476-480
Zeppenfeld, K. 1969: Wavelength dependence and spatial dispersion of the dialectric constant in graphite by electron spectroscopy. Optics Communications 1(3): 119-122
Cheah, K.; Choy, C. 1994: Wavelength dependence in photosynthesis of porous silicon dot. Solid State Communications 91(10): 795-797
Nagao, Y.; Shima, K.; Sakurai, H. 1970: Wavelength dependence in the photolysis of triphenyl-phosphine-diphenylmethylene in cyclohexene. Tetrahedron Letters 11(25): 2221-2224
Zhang, Q.; Canva, M.; Stegeman, G. 1998: Wavelength dependence of 4-dimethylamino-4′-nitrostilbene polymer thin film photodegradation. Applied Physics Letters 73(7): 912-914
Haldoupis, C.; Bourdillon, A.; Delloue, J.; Hussey, G. 1998: Wavelength dependence of Doppler spectrum broadening in midlatitude Eregion coherent backscatter. Journal of Geophysical Research: Space Physics 103(A 6): 11605-11615
Gill, R.; Atkinson, G. 1979: Wavelength dependence of HCO formation in the photolysis of acetaldehyde. Chemical Physics Letters 64(3): 426-430
Elton, N.J.; Legrix, A. 2014: Wavelength dependence of Kubelka–Munk scattering spectra for studies of Ti O2 microstructure and aggregation in paints. Journal of Coatings Technology and Research 11(4): 555-566
Yin, H.; Gao, Y.; Gong, Y.; Buchanan, R.; Song, J.; Li, M. 2018: Wavelength dependence of Tb 3+ doped magneto-optical glass Verdet constant. Ceramics International 44(9): 10929-10933
Cramer, L.; Langford, S.; Hess, W.; Dickinson, J. 2002: Wavelength dependence of UV-laser induced emission of neutral and ionic species from single crystal Na NO3. Applied Surface Science 197-198: 35-40
Chen, Z.; Yang, L.; Wang, X.; Hang, Y. 2016: Wavelength dependence of Verdet constant of Pr doped terbium gallium garnet crystal. Optical Materials 62: 475-478
Jacob, A.P.; Bedding, T.R.; Robertson, J.G.; Scholz, M. 2000: Wavelength dependence of angular diameters of M giants: an observational perspective. Monthly Notices of the Royal Astronomical Society 312(4): 733-746
Kirn, T.; Schmitz, D.; Schwenke, J.; Flügel, T.; Renker, D.; Wirtz, H. 1997: Wavelength dependence of avalanche photodiode (APD) parameters. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 387(1-2): 202-204
Chang, J.Y.; Chinjen, C.R.; Duan, S.H.; Huang, C.Y.; Sun, C.C. 1998: Wavelength dependence of carrier-type in reduced Ba Ti O3:Rh. Applied Physics Letters 72(18): 2199-2201
Nakaji, H.; Shigematsu, M. 2003: Wavelength dependence of dynamic gain fluctuation in a high-speed automatic gain controlled erbium-doped fiber amplifier. IEEE Photonics Technology Letters 15(2): 203-205
Shirom, M.; Siderer, Y. 1973: Wavelength dependence of electron formation from photoexcited Mo(CN)84− in 10N Na OH glasses at 77°K. The Journal of Chemical Physics 58(3): 1250-1251
Saadon, H L.; Théofanous, N.; Aillerie, M. 2006: Wavelength dependence of electronic and ionic contributionsreandriin an Li Ta O3crystal. Journal of Physics D: Applied Physics 39(12): 2509-2513
Yamauchi, H. 1983: Wavelength dependence of electronic excess energy of a composition-modulated metallic mixture. Physical Review B 27(2): 905-909
Simonsson, J.; Olofsson, N.; Török, S.; Bengtsson, P.; Bladh, H. 2015: Wavelength dependence of extinction in sooting flat premixed flames in the visible and near-infrared regimes. Applied Physics B 119(4): 657-667
Fedosejevs, R.; Shan, X X.; Offenberger, A A. 1987: Wavelength dependence of gain from 248.2 to 248.4 nm in a Kr F discharge laser. Journal of Physics D: Applied Physics 20(7): 912-916
Goebel, E.; Hildebrand, O.; Lohnert, K. 1977: Wavelength dependence of gain saturation in Ga as lasers. IEEE Journal of Quantum Electronics 13(10): 848-854
Yue, S.; Du, H.; Wu, H.; Li, J.; Hu, B. 2017: Wavelength dependence of high-harmonic yield in stretched molecules. Chemical Physics 494: 56-60
Briers, J. 1975: Wavelength dependence of intensity fluctuations in laser speckle patterns from biological specimens. Optics Communications 13(3): 324-326
Kaiser, J.; Röckmann, T.; Brenninkmeijer, C.A.M.; Crutzen, P.J. 2003: Wavelength dependence of isotope fractionation in N2O photolysis. Atmospheric Chemistry and Physics 3(2): 303-313
Ledingham, K.; Raine, C.; Smith, K.; Smyth, M.; Stewart, D.; Towrie, M.; Houston, C. 1985: Wavelength dependence of laser induced ionisation in proportional counters. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 241(2-3): 441-447
Gajdardziska-Josifovska, M.; Lazarov, V.; Reynolds, J.; Yakovlev, V.V. 2001: Wavelength dependence of laser-induced phase transformations in semiconductor quantum dots. Applied Physics Letters 78(21): 3298-3300
Yoshihashi-Suzuki, S.; Sato, I.; Awazu, K. 2008: Wavelength dependence of matrix-assisted laser desorption and ionization using a tunable mid-infrared laser. International Journal of Mass Spectrometry 270(3): 134-138
Fuß, W.; Kompa, K.L.; Tablas, F.M.G. 1979: Wavelength dependence of multiphoton absorption and dissociation of hexafluoroacetone. Faraday Discuss. Chem. Soc. 67: 180-187
Kondo, K.; Borisov, A B.; Jordan, C.; McPherson, A.; Schroeder, W A.; Boyer, K.; Rhodes, C K. 1997: Wavelength dependence of multiphoton-induced Xe(M) and Xe(L) emissions from Xe clusters. Journal of Physics B: Atomic, Molecular and Optical Physics 30(11): 2707-2716
Kanbe, H.; Kimura, T.; Mizushima, Y. 1977: Wavelength dependence of multiplication noise in silicon avalanche photodiodes. IEEE Transactions on Electron Devices 24(6): 713-716
Scandola, F.; Bartocci, C.; Scandola, M.A. 1974: Wavelength dependence of nitropentaamminecobalt(III) photochemistry. Charge transfer and ligand field excited-state behavior. The Journal of Physical Chemistry 78(6): 572-575
Nakagawa, K.; Itoh, A.; Zhang, R.; Zheng, Y.; Chen, L. 1999: Wavelength dependence of optical characteristics for Tb Fe Co and MO disk structure for double-wavelength readout MO disk. IEEE Transactions on Magnetics 35(5): 3124-3126
Sonnenberg, H. 1972: Wavelength dependence of optimum thickness of Cs–O low‐work‐function surfaces. Applied Physics Letters 21(3): 103-105
Miller, J.R.; Willard, J.E. 1972: Wavelength dependence of photobleaching of trapped electrons in 3-methylpentane glass. The Journal of Physical Chemistry 76(16): 2341-2342
van Veen, N.; De Vries, M.; Sokol, J.; Baller, T.; de Vries, A. 1981: Wavelength dependence of photofragmentation processes of the first excited states of Na and K halides. Chemical Physics 56(1): 81-90
Sasseville, R.L.P.; Langford, C.H. 1980: Wavelength dependence of photohydrolysis and luminescence quantum yields of tris(bipyridine)chromium(III) ion. Inorganic Chemistry 19(9): 2850-2851
Kondo, Y.; Inouye, H.; Fujiwara, S.; Suzuki, T.; Mitsuyu, T.; Yoko, T.; Hirao, K. 2000: Wavelength dependence of photoreduction of Ag+ ions in glasses through the multiphoton process. Journal of Applied Physics 88(3): 1244-1250
Maragkaki, S.; Derrien, T.J.; Levy, Y.; Bulgakova, N.M.; Ostendorf, A.; Gurevich, E.L. 2017: Wavelength dependence of picosecond laser-induced periodic surface structures on copper. Applied Surface Science 417: 88-92
He, C.; Yi, X.; Wu, T.; Wang, J.; Zhu, K.; Liu, Y. 2014: Wavelength dependence of refractive index in lead-free Na0.5Bi0.5Ti O3–Ba Ti O3 single crystals. Optical Materials 36(12): 2023-2025
Mohammed Napiah, Z.A.F.; Hishiki, T.; Iiyama, K. 2017: Wavelength dependence of silicon avalanche photodiode fabricated by CMOS process. Optics-Laser Technology 92: 193-197
Von Raben, K.U.; Chang, R.K.; Laube, B.L.; Barber, P.W. 1984: Wavelength dependence of surface-enhanced Raman scattering from silver colloids with adsorbed cyanide complexes, sulfite and pyridine. The Journal of Physical Chemistry 88(22): 5290-5296
Tan, C.; Arndt, J. 1999: Wavelength dependence of the Faraday effect in glassy Si O2. Journal of Physics and Chemistry of Solids 60(10): 1689-1692
Martín-Sómer, M.; Vega, B.; Pablos, C.; van Grieken, R.; Marugán, J. 2018: Wavelength dependence of the efficiency of photocatalytic processes for water treatment. Applied Catalysis B: Environmental 221: 258-265
Bluyssen, H.J.A.; van Ruyven, L.J. 1979: Wavelength dependence of the emission of a double‐heterojunction Ga As‐Al Ga as injection laser in a strong magnetic field. Journal of Applied Physics 50(12): 8198-8200
Lavi, A.; Johnson, F.M.; Ehrenberg, B. 1994: Wavelength dependence of the fluorescence and singlet oxygen quantum yields of new photosensitizers. Chemical Physics Letters 231(2-3): 144-150
Schad, R.; Jordan, S.M.; Stoelinga, M.J.P.; Prins, M.W.J.; Groeneveld, R.H.M.; van Kempen, H.; van Kesteren, H.W. 1998: Wavelength dependence of the magnetic resolution of the magneto-optical near-field scanning tunneling microscope. Applied Physics Letters 73(18): 2669-2671
Peifer, W.R.; Garvey, J.F. 1991: Wavelength dependence of the multiphoton ionization and fragmentation dynamics of chromium hexacarbonyl/methanol van der Waals heteroclusters. The Journal of Physical Chemistry 95(3): 1177-1183
Yang, J.J.; Gobeli, D.A.; Pandolfi, R.S.; El-Sayed, M.A. 1983: Wavelength dependence of the multiphoton ionization-fragmentation mass spectrometric pattern of benzaldehyde. The Journal of Physical Chemistry 87(12): 2255-2260
Barroso, J.; Costela, A.; Garcı́a-Moreno, I.; Sastre, R. 1998: Wavelength dependence of the nonlinear absorption properties of laser dyes in solid and liquid solutions. Chemical Physics 238(2): 257-272
Kersten, R.; Le-Hiep, T. 1982: Wavelength dependence of the numerical aperture of optical fibers. Optics Communications 41(2): 99-101
Romero, M.A.; Bangert, A.; Zhang, X.; Herczfeld, P.R. 1992: Wavelength dependence of the optical control of a hemt oscillator. Microwave and Optical Technology Letters 5(1): 38-41
De Nicola, S.; Ferraro, P.; Finizio, A.; Pierattini, G. 1995: Wavelength dependence of the phase retardation of a quarter-wave plate. Applied Physics B 60(4): 405-407
Stepanov, S.; Rodríguez, P.; Mansurova, S.; Arroyo, M.; Trivedi, S.; Wang, C. 2007: Wavelength dependence of the photo-electromotive-force effect in Cd Te:V crystal with bipolar photoconductivity. Optical Materials 29(6): 623-630
Fichtner, C.; van Gastel, M.; Lubitz, W. 2003: Wavelength dependence of the photo-induced conversion of the Ni–C to the Ni–L redox state in the [Ni Fe] hydrogenase of Desulfovibrio vulgaris Miyazaki F. PHYS. Chem. Chem. Phys. 5(24): 5507-5513
Abhilasha; Dwivedi, R.K.; Thareja, R.K. 1994: Wavelength dependence of the photoablation of carbon at low irradiance. Journal of Applied Physics 75(12): 8237-8239
Garrett, S.J.; Holbert, V.P.; Stair, P.C.; Weitz, E. 1994: Wavelength dependence of the photodissociation and photodesorption of CD3i adsorbed on the Ti O2(110) surface. The Journal of Chemical Physics 100(6): 4626-4636
Dehmer, J.L.; Chupka, W.A.; Berkowitz, J.; Jivery, W.T. 1975: Wavelength dependence of the photoelectron angular distributions of the rare gases. Physical Review A 12(5): 1966-1973
Lim, T.; Wolfram, T.; Kraut, E.; Sinha, S. 1973: Wavelength dependence of the photoenhancement of nonlinear surface‐wave convolution. Applied Physics Letters 22(8): 421-423
Tachibana, M.; Kojima, K.; Sakuma, H.; Komatsu, T.; Sunakawa, T. 1998: Wavelength dependence of the photoinduced indentation hardening in C60 crystals. Journal of Applied Physics 84(4): 1944-1946
Pileni, M.P.; Lavalette, D.; Muel, B. 1975: Wavelength dependence of the photoionization of phenolic compounds. Journal of the American Chemical Society 97(8): 2283-2284
He, X.; Huang, W.Y.; Reiser, A. 1992: Wavelength dependence of the photolysis of some anthracene-containing sulfonium salts. The Journal of Organic Chemistry 57(2): 759-761
Kurz, H. 1974: Wavelength dependence of the photorefractive process in doped linbo3. Ferroelectrics 8(1): 437-439
Horowitz, A.; Calvert, J.G. 1982: Wavelength dependence of the primary processes in acetaldehyde photolysis. The Journal of Physical Chemistry 86(16): 3105-3114
Steen, H.B. 1974: Wavelength dependence of the quantum yield of fluorescence and photoionization of indoles. The Journal of Chemical Physics 61(10): 3997-4002
Gauthier, N. 1987: Wavelength dependence of the refractive index. The Physics Teacher 25(8): 502-503
Steinrisser, F.; Hetrick, R.E. 1971: Wavelength dependence of the surface photovoltage in vacuum cleaved Cd S. Surface Science 28(2): 607-620
Van Keuren, E.; Wakebe, T.; Andreaus, R.; Möhwald, H.; Schrof, W.; Belov, V.; Matsuda, H.; Rangel-Rojo, R. 1999: Wavelength dependence of the third-order nonlinear optical properties of a polythiophene/selenophene derivative film. Applied Physics Letters 75(21): 3312-3314
Chow, W.W.; Schneider Jr., R.P.; Lott, J.A.; Choquette, K.D. 1994: Wavelength dependence of the threshold in an in Ga P‐in Al Ga P vertical cavity surface emitting laser. Applied Physics Letters 65(2): 135-137
Sipp, B.; Miehe, J.; Lopez-Delgado, R. 1976: Wavelength dependence of the time resolution of high-speed photomultipliers used in single-photon timing experiments. Optics Communications 16(1): 202-204
Kwiram, A.L.; Alexander Ross, J.; Deranleau, D.A. 1978: Wavelength dependence of the zero-field splittings in the triplet state of tryptophan. Chemical Physics Letters 54(3): 506-509
LaLumondiere, S.; Koga, R.; Osborn, J.; Mayer, D.; Lacoe, R.; Moss, S. 2002: Wavelength dependence of transient laser-induced latchup in epi-CMOS test structures. IEEE Transactions on Nuclear Science 49(6): 3059-3066
Shi, Q.; Hou, Y.; Li, Y.; Feng, Z.; Liu, X. 2008: Wavelength dependence of transient photovoltage polarity. Physics Letters A 372(36): 5853-5856
Mizunami, T.; Hashimoto, M.; Gupta, S.; Uchida, Y.; Shimomura, T. 1997: Wavelength dependence of two-photon absorption in germanosilicate optical fibers. Optics Communications 138(1-3): 40-44
Zhang, J.; Dou, S.X.; Gao, H.; Zhu, Y.; Ye, P. 1995: Wavelength dependence of two‐beam coupling gain coefficients of Ba Ti O3:Ce crystals. Applied Physics Letters 67(4): 458-460
Takao, H.; Okoshi, M.; Inoue, N. 2007: Wavelength dependence on the formation of Si O2 films by ultraviolet-laser-induced photochemical deposition using silicone rubber. Journal of Physics: Conference Series 59: 432-435
Dauben, W.G.; Kellogg, M.S. 1971: Wavelength dependency in the photochemistry of 1,3-cyclohexadienes. cis-Bicyclo[4.3.0]nona-2,4-diene to cis,cis,trans-1,3,5-cyclononatriene valence tautomerism. Journal of the American Chemical Society 93(15): 3805-3807
Furukawa, J.; Kobayashi, E.; Arai, Y. 1971: Wavelength dependency of UV-irradiation polymerization of butadiene and acrylic monomer in the presence of Etn Al Cl3-n. Journal of Polymer Science Part B: Polymer Letters 9(11): 805-812
Caucheteur, C.; Wuilpart, M.; Bette, S.; Lhommé, F.; Chah, K.; Blondel, M.; Mégret, P. 2005: Wavelength dependency of degree of polarization for uniform Bragg gratings written into polarization maintaining optical fibers. Optics Communications 247(4-6): 325-333
Taylor, G.W.; Simons, J.W. 1970: Wavelength dependency of the relative proportions of singlet/triplet methylenes from the photolysis of diazomethane. Canadian Journal of Chemistry 48(6): 1016-1018
Fan, C.; Li, Y.; Lu, F.; Deng, H.; Wei, Z.; Li, J. 2016: Wavelength dependent UV-Vis photodetectors from Sn S2 flakes. RSC Advances 6(1): 422-427
Cao, F.; Donnarumma, F.; Murray, K.K. 2018: Wavelength dependent atomic force microscope tip-enhanced laser ablation. Applied Surface Science 447: 437-441
Lin, C.; Singh, P.; Ullman, E.F. 1976: Wavelength dependent carbonium ion formation by photosolvolysis of benzoates. Journal of the American Chemical Society 98(24): 7848-7850
Jang, J.; Cueva, G.; Sankaralingam, R.; Fay, P.; Hoke, W.; Adesida, I. 2003: Wavelength dependent characteristics of high-speed metamorphic photodiodes. IEEE Photonics Technology Letters 15(2): 281-283
Umapathi, A.; Swaroop, S. 2017: Wavelength dependent deformation in a laser peened Ti-2.5Cu alloy. Materials Science and Engineering: A684: 344-352
Delaye, P.; de Montmorillon, L.; Biaggio, I.; Launay, J.; Roosen, G. 1997: Wavelength dependent effective trap density in Cd Te: evidence for the presence of two photorefractive species. Optics Communications 134(1-6): 580-590
Zhu, H.; Chen, Z.; Wu, K.; Lian, T. 2014: Wavelength dependent efficient photoreduction of redox mediators using type Ii Zn Se/Cd S nanorod heterostructures. CHEM. Sci. 5(10): 3905-3914
Eitel, K.; Gemmeke, H.; Maschuw, R.; Rapp, J.; Wolf, J. 1994: Wavelength dependent light attenuation in organic scintillators. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 340(2): 346-352
Jaafar, A.H.; Kemp, N. 2019: Wavelength dependent light tunable resistive switching graphene oxide nonvolatile memory devices. Carbon 153: 81-88
Yang, B.; Duan, J.; Xie, Z.; Xiao, H. 2013: Wavelength dependent loss of splice of single-mode fibers. Journal of Central South University 20(7): 1832-1837
Mondal, S.; Sahoo, L.; Vaishnav, Y.; Mishra, S.; Roy, R.S.; Vinod, C.P.; De, A.K.; Gautam, U.K. 2020: Wavelength dependent luminescence decay kinetics in 'quantum-confined' g-C3N4 nanosheets exhibiting high photocatalytic efficiency upon plasmonic coupling. Journal of Materials Chemistry A 8(39): 20581-20592
Zhu, X.; Flores, C.; White, J. 1991: Wavelength dependent mechanism of metal-adsorbate photochemistry: phosgene on Pd(111). Surface Science 256(1-2): L585-L588
Krezhov, K.; Konstantinov, P.; Lilkov, V. 1997: Wavelength dependent neutron depolarization in some metallic glasses. Physica B: Condensed Matter 234-236: 628-631
Grosse, M.; Steinbrueck, M.; Kaestner, A. 2011: Wavelength dependent neutron transmission and radiography investigations of the high temperature behaviour of materials applied in nuclear fuel and control rod claddings. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 651(1): 315-319
Gadonas, R.; Feller, K.; Pugzlys, A. 1994: Wavelength dependent nonlinear optical properties of pseudoisocyanine J-aggregates. Optics Communications 112(3-4): 157-162
Xiong, J.; Li, X.; Yuan, C.; Semin, S.; Yao, Z.; Xu, J.; Rasing, T.; Bu, X. 2018: Wavelength dependent nonlinear optical response of tetraphenylethene aggregation-induced emission luminogens. Materials Chemistry Frontiers 2(12): 2263-2271
Kumar, K.V.A.; Venugopal Rao, S.; Hamad, S.; Dharmaprakash, S.M. 2016: Wavelength dependent nonlinear optical switching in electron beam irradiated Cu TTBPc thin film. RSC Advances 6(26): 22083-22089
Berthe, L.; Fabbro, R.; Peyre, P.; Bartnicki, E. 1999: Wavelength dependent of laser shock-wave generation in the water-confinement regime. Journal of Applied Physics 85(11): 7552-7555
Raoufi, N.; Surre, F.; Sun, T.; Rajarajan, M.; Grattan, K.T. 2012: Wavelength dependent p H optical sensor using the layer-by-layer technique. Sensors and Actuators B: Chemical 169: 374-381
Hyuek Jae Lee; Sohn, M.; Kwangjoon Kim; Hae Geun Kim, 1999: Wavelength dependent performance of a wavelength converter based on cross-gain modulation and birefringence of a semiconductor optical amplifier. IEEE Photonics Technology Letters 11(2): 185-187
Yamamoto, S.; Asakura, K.; Mochida, K.; Nitta, A.; Kuroda, H. 1993: Wavelength dependent photochemical decarbonylation of H2Ru4(CO)13 to form coordinatively unsaturated H2Ru4(CO)12 in solid matrixes at 77 K: a model for the photoreaction postulated to form H2Ru4(CO)12 on the surface of silica. The Journal of Physical Chemistry 97(3): 565-568
Petroff Ii, J.T.; Omlid, S.M.; Chintala, S.M.; McCulla, R.D. 2018: Wavelength dependent photochemistry of expanded chromophore and asymmetric dibenzothiophene S-Oxide derivatives. Journal of Photochemistry and Photobiology A: Chemistry 358: 130-137
Xu, F.; Tan, Y.; Yuan, D.; Chen, W.; Yu, S.; Xie, T.; Wang, T.; Yang, X.; Wang, X. 2020: Wavelength dependent photodissociation of OCS via F 31Π Rydberg state: CO(X1Σ+)+S(1D2) product channel. Chinese Journal of Chemical Physics 33(6): 691-696
Fang, T.; Singer, L.A. 1978: Wavelength dependent photoprocesses in acenaphthaquinone. Journal of the American Chemical Society 100(19): 6276-6278
Jacomme, L. 1978: Wavelength dependent propagation in optical multimode fibers. Optics Communications 24(2): 213-216
El‐Astal, A.H.; Morrow, T. 1996: Wavelength dependent refractive effects and Stark broadening in laser‐induced YBa2Cu3Ox plasma plumes. Journal of Applied Physics 80(2): 1156-1160
Kalanoor, B.S.; Bisht, P.B. 2010: Wavelength dependent resonant nonlinearities in a standard saturable absorber IR26 on picosecond time scale. Optics Communications 283(20): 4059-4063
Bass, M.; Steinfeld, J. 1968: Wavelength dependent time development of the intensity of dye solution lasers. IEEE Journal of Quantum Electronics 4(2): 53-58
James, P.; Wolff, M. 2018: Wavelength dependent visible albedo of CO2 ice in residual south polar cap of Mars using MARCi data. Icarus 308: 108-116
Matsui, A.; Tomioka, K. 1976: Wavelength derivative spectroscopy using a small computer. Journal of Physics E: Scientific Instruments 9(7): 529-530
Heritage, J.; Bergman, J. 1980: Wavelength derivative surface Raman gain spectroscopy of carbonate on silver. Optics Communications 35(3): 373-376
Liang, J.; Suganthan, P.; Chan, C.; Huang, V. 2006: Wavelength detection in FBG sensor network using tree search DMS-PSO. IEEE Photonics Technology Letters 18(12): 1305-1307
Emmerton, J.; Delhis, J.D. 1980: Wavelength discrimination in the ?visible? and ultraviolet spectrum by pigeons. Journal of Comparative Physiology ? A 141(1): 47-52
Uchikawa, K.; Ikeda, M. 1985: Wavelength discrimination with a chromatically alternating stimulus. Color Research-Application 10(4): 204-209
Sugimura, A.; Daikoku, K.; Imoto, N.; Miya, T. 1980: Wavelength dispersion characteristics of single-mode fibers in low-loss region. IEEE Journal of Quantum Electronics 16(2): 215-225
Shi, L.; Pun, E.; Chung, P. 1996: Wavelength dispersion of effective refractive indices of Rb:KTi OPO4 optical waveguides. IEEE Photonics Technology Letters 8(7): 912-914
Rizzi, F.; Edwards, P.; Watson, I.; Martin, R. 2006: Wavelength dispersive X-ray analysis and cathodoluminescence techniques for monitoring the chemical removal of Al in N on an N-face Ga N surface. Superlattices and Microstructures 40(4-6): 369-372
Santos, M.C.; Sperança, M.A.; Pereira, F.M.V. 2018: Wavelength dispersive X-ray fluorescence (WDXRF) and chemometric investigation of human hair after cosmetic treatment. X-Ray Spectrometry 47(3): 252-257
Shaltout, A.A.; Moharram, M.A.; Mostafa, N.Y. 2012: Wavelength dispersive X-ray fluorescence analysis using fundamental parameter approach of Catha edulis and other related plant samples. Spectrochimica Acta Part B: Atomic Spectroscopy 67: 74-78
Ohmori, T.; Kato, S.; Doi, M.; Shoji, T.; Tsuji, K. 2013: Wavelength dispersive X-ray fluorescence imaging using a high-sensitivity imaging sensor. Spectrochimica Acta Part B: Atomic Spectroscopy 83-84: 56-60
Awaji, N. 2004: Wavelength dispersive grazing incidence X-ray fluorescence of multilayer thin films. Spectrochimica Acta Part B: Atomic Spectroscopy 59(8): 1133-1139
Pacifici, J.G.; Diebert, C. 1969: Wavelength effect in photolysis of 4,4,6,6-tetramethyl-1-thiaspiro[2.3]hexan-5-one. Journal of the American Chemical Society 91(16): 4595-4596
Zhao, W.; Wang, W.; Li, B.Q.; Jiang, G.; Mei, X. 2016: Wavelength effect on hole shapes and morphology evolution during ablation by picosecond laser pulses. Optics-Laser Technology 84: 79-86
Torikai, A.; Hattori, T.; Eguchi, T. 1995: Wavelength effect on the photoinduced reaction of polymethylmethacrylate. Journal of Polymer Science Part A: Polymer Chemistry 33(11): 1867-1871
Lewis, C.; Ware, W.R. 1972: Wavelength effects in fluorescence quenching: the anthracene-carbon tetrachloride system. Chemical Physics Letters 15(2): 290-292
Step, E.N.; Tarasov, V.F.; Buchachenko, A.L.; Turro, N.J. 1993: Wavelength effects in the photolysis of ketones: stereoisomerization and magnetic isotope carbon-13/carbon-12 separation; a probe for adiabatic versus diabatic trajectories during bond dissociation. The Journal of Physical Chemistry 97(2): 363-373
Jones Ii, G.; Becker, W.G. 1982: Wavelength effects on ionic photodissociation of charge-transfer complexes: the quadricyclene system. Chemical Physics Letters 85(3): 271-274
Suzuki, R.; Miyamoto, T.; Koyama, F. 2007: Wavelength elongation and improved emission efficiency of MOCVD-grown in as quantum dots by Ga NAs buffer layer. Journal of Crystal Growth 298: 574-577
Uesaka, K.; Wong, K.; Marhic, M.; Kazovsky, L. 2002: Wavelength exchange in a highly nonlinear dispersion-shifted fiber: theory and experiments. IEEE Journal of Selected Topics in Quantum Electronics 8(3): 560-568
Wong, K. 2003: Wavelength exchange: a novel function for optical networks. Information Sciences 149(1-3): 161-169
Zhang, Y.; Gu, Y.; Tian, Z.; Li, A.; Zhu, X.; Zheng, Y. 2008: Wavelength extended 2.4μm heterojunction in Ga as photodiodes with in Al as cap and linearly graded buffer layers suitable for both front and back illuminations. Infrared Physics-Technology 51(4): 316-321
Zhang, Y.; Gu, Y.; Tian, Z.; Li, A.; Zhu, X.; Wang, K. 2009: Wavelength extended in Ga As/in Al As/in P photodetectors using n-on-p configuration optimized for back illumination. Infrared Physics-Technology 52(1): 52-56
Zhang, Y.; Yue, L.; Chen, X.; Shao, J.; Ou, X.; Wang, S. 2018: Wavelength extension in Ga Sb Bi quantum wells using delta-doping. Journal of Alloys and Compounds 744: 667-671
Hakkarainen, T.; Toivonen, J.; Sopanen, M.; Lipsanen, H. 2003: Wavelength extension of Ga in As/Ga In(N)As quantum dot structures grown on Ga as. Journal of Crystal Growth 248: 339-342
Kim, W.; Lee, H.; Kim, G.; Lee, S.; Lee, W. 2012: Wavelength filter exploiting serially coupled ring resonators fabricated by a standard silicon CMOS technology. Microwave and Optical Technology Letters 54(4): 933-936
Okayama, H.; Onawa, Y.; Shimura, D.; Takahashi, H.; Yaegashi, H.; Sasaki, H. 2019: Wavelength filter using twin one‐dimensional photonic crystal cavity silicon waveguides. Electronics Letters 55(2): 107-109
Yang, B.J.; Zhou, Y.J. 2015: Wavelength filtering and demultiplexing devices based on ultrathin corrugated MIM waveguides. Journal of Modern Optics 63(9): 874-880
Lucchetta, D.E.; Criante, L.; Francescangeli, O.; Simoni, F. 2004: Wavelength flipping in laser emission driven by a switchable holographic grating. Applied Physics Letters 84(6): 837-839
Biron, H.; Görller-Walrand, C.; De Jaegere, S. 1973: Wavelength independence of Eu3+ quantum yields. Chemical Physics Letters 20(6): 581-585
Oh, M.; Shin, S.; Hwang, W.; Kim, J. 1995: Wavelength insensitive passive polarization converter fabricated by poled polymer waveguides. Applied Physics Letters 67(13): 1821-1823
Park, J.; Chang-Hee Lee, 2000: Wavelength interleaved bidirectional add/drop amplifier module. IEEE Photonics Technology Letters 12(3): 326-328
Kovalenko, I.G.; Shchekinov, Y.A. 1999: Wavelength limits on isobaricity of perturbations in a thermally unstable radiatively cooling medium. Physics of Plasmas 6(1): 335-342
Yang, C.; Xiao, M. 2000: Wavelength locking of multiple diode lasers by multiplexed gratings in a photorefractive crystal. Applied Physics Letters 77(15): 2277-2279
San-Liang Lee, 1998: Wavelength measurement and tracking using semiconductor laser amplifiers for applications in photonic networks. IEEE Photonics Technology Letters 10(3): 439-441
Buchet, J.P.; Buchet-Poulizac, M.C.; Denis, A.; Désesquelles, J.; Druetta, M.; Grandin, J.P.; Husson, X. 1981: Wavelength measurement of the1s2s S13−1s2p P23transition in heliumlike Fe24+. Physical Review A 23(6): 3354-3356
Blanke, J.H.; Heckmann, P.H.; Trbert, E.; Hucke, R.; Buttlar, H. 1985: Wavelength measurements in the quartet term system of doubly excited OVi and FVIi. Zeitschrift fr Physik A Atoms and Nuclei 321(1): 47-50
Edlén, B. 1963: Wavelength measurements in the vacuum ultra-violet. Reports on Progress in Physics 26(1): 181-212
Johns, J.; McKellar, A.; Weitz, D. 1974: Wavelength measurements of 13C16O laser transitions. Journal of Molecular Spectroscopy 51(3): 539-545
Sugiura, Y.; Matsunaga, Y.; Fujioka, T. 1974: Wavelength measurements of simultaneously excited superradiance and laser emission from cryptocyanine dye. Journal of Applied Physics 45(11): 4969-4970
Widmann, K.; Beiersdorfer, P.; Decaux, V. 1995: Wavelength measurements of the He-like krypton K-shell spectrum. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 98(1-4): 45-47
Tarbutt, M R.; Barnsley, R.; Peacock, N J.; Silver, J D. 2001: Wavelength measurements of the satellite transitions to then= 2 resonance lines of helium-like argon. Journal of Physics B: Atomic, Molecular and Optical Physics 34(20): 3979-3991
Bodermann, B.; B nsch, G.; Kn ckel, H.; Nicolaus, A.; Tiemann, E. 1998: Wavelength measurements of three iodine lines between 780 nm and 795 nm. Metrologia 35(2): 105-113
Bharti, V.; Wasan, A.; Natarajan, V. 2016: Wavelength mismatch effect in electromagnetically induced absorption. Physics Letters A 380(31-32): 2390-2394
Humphreys, R.; Bimberg, D.; Choyke, W. 1981: Wavelength modulated absorption in Si C. Solid State Communications 39(1): 163-167
Vasudev, R. 2006: Wavelength modulated cavity enhanced absorption spectroscopy of ammonia at 1994 nm. Applied Physics B 87(1): 163-167
Horn, K.; Pritchard, J. 1975: Wavelength modulated infrared reflection-absorption spectroscopy: Ethane adsorbed on Cu(110). Surface Science 52(2): 437-439
Zhao, W.; Gao, X.; Chen, W.; Zhang, W.; Huang, T.; Wu, T.; Cha, H. 2006: Wavelength modulated off-axis integrated cavity output spectroscopy in the near infrared. Applied Physics B 86(2): 353-359
Nishino, T.; Takeda, M.; Hamakawa, Y. 1973: Wavelength modulated photoresponse spectra in metal-semiconductor Schottky barrier. Surface Science 37: 404-409
Kluczynski, P.; Gustafsson, J.; Lindberg, .M.; Axner, O. 2001: Wavelength modulation absorption spectrometry - an extensive scrutiny of the generation of signals. Spectrochimica Acta Part B: Atomic Spectroscopy 56(8): 1277-1354
Korn, D.; Welkowsky, M.; Braunstein, R. 1971: Wavelength modulation derivative reflectivity of Pb1−x Snx Te. Solid State Communications 9(22): 2001-2004
Sun, K.; Chao, X.; Sur, R.; Jeffries, J.B.; Hanson, R.K. 2012: Wavelength modulation diode laser absorption spectroscopy for high-pressure gas sensing. Applied Physics B 110(4): 497-508
Rivera-Ortega, U. 2018: Wavelength modulation in a two-window common path interferometer for phase-shifting. Optical Review 25(1): 116-121
Castleden, S.L.; Kirkbright, G.F.; Spillane, D.E.M. 1981: Wavelength modulation in photoacoustic spectroscopy. Analytical Chemistry 53(14): 2228-2231
Nishino, T.; Hamakawa, Y. 1972: Wavelength modulation of the photoresponse near the indirect edges of Si, Ge, and Ga P. Physica Status Solidi (b) 50(1): 345-349
Kohn, S.; Petroff, Y.; Shen, Y. 1973: Wavelength modulation spectra of Ga Se, Ga S, and alloys. Surface Science 37: 205-211
Zucca, R.R.; Walter, J.P.; Shen, Y.; Cohen, M.L. 1970: Wavelength modulation spectra of Ga as and silicon. Solid State Communications 8(8): 627-632
Fong, C.; Petroff, Y.; Kohn, S.; Shen, Y. 1974: Wavelength modulation spectra of Sb Si and its electronic band structure. Solid State Communications 14(8): 681-685
Weakliem, H.; Braunstein, R.; Stearns, R. 1974: Wavelength modulation spectra of Sr Ti O3. Solid State Communications 15(1): 5-8
Stokes, J.; Shen, Y.; Tsang, Y.; Cohen, M.; Fong, C. 1972: Wavelength modulation spectra of single crystals of silver and gold. Physics Letters A 38(5): 347-348
Theis, D.; Busse, W. 1977: Wavelength modulation spectrometer for studying the optical properties of solids in a wide range of light energy. Journal of Physics E: Scientific Instruments 10(1): 57-60
Rubin Qi, R.Q.; Zhenhui Du, Z.D.; Dongyu Gao, D.G.; Jinyi Li, J.L.; Kexin Xu, K.X. 2012: Wavelength modulation spectroscopy based on quasi-continuous-wave diode lasers. Chinese Optics Letters 10(3): 033001-33004
Wemple, S. 1973: Wavelength modulation spectroscopy of epitaxial iron garnet films. Surface Science 37: 297-303
Stievater, T.H.; Li, X.; Guest, J.R.; Steel, D.G.; Gammon, D.; Katzer, D.S.; Park, D. 2002: Wavelength modulation spectroscopy of single quantum dots. Applied Physics Letters 80(11): 1876-1878
Kung, H.L.; Miller, D.A.B.; Atanackovic, P.; Lin, C.C.; Harris Jr., J.S.; Carraresi, L.; Cunningham, J.E.; Jan, W.Y. 2000: Wavelength monitor based on two single-quantum-well absorbers sampling a standing wave pattern. Applied Physics Letters 76(22): 3185-3187
Nasu, H.; Mukaihara, T.; Shinagawa, T.; Takagi, T.; Oike, M.; Nomura, T.; Kasukawa, A. 2005: Wavelength monitor integrated laser modules for 25-GHz-spacing tunable applications. IEEE Journal of Selected Topics in Quantum Electronics 11(1): 157-164
Sookdhis, C.; Ting Mei; Djie, H. 2005: Wavelength monitoring with low-contrast multimode interference waveguide. IEEE Photonics Technology Letters 17(4): 822-824
Takahashi, H.; Suzuki, S.; Nishi, I. 1994: Wavelength multiplexer based on Si O/sub 2/-Ta/sub 2/O/sub 5/ arrayed-waveguide grating. Journal of Lightwave Technology 12(6): 989-995
Alferov, Z.; Arutyunov, E.; Gurevitch, S.; Portnoy, E.; Pronina, N.; Smirnitsky, V. 1981: Wavelength multiplexing DH Al Ga as injection laser source with a graded composition along the active layer. IEEE Journal of Quantum Electronics 17(8): 1530-1533
Alduino, A.; Zhou, Y.; Luong, S.; Hains, C.; Cheng, J. 1998: Wavelength multiplexing and demultiplexing using multiwavelength VCSEL and resonance-enhanced photodetector arrays. IEEE Photonics Technology Letters 10(9): 1310-1312
Bartelt, H. 1978: Wavelength multiplexing for information transmission. Optics Communications 27(3): 365-368
Ellis, J.W. 1958: Wavelength of Plane Waves in a Dissipative Medium, and of Spherical Waves in a Nondissipative and in a Dissipative Medium. American Journal of Physics 26(6): 398-399
Barger, R.; Hall, J. 1973: Wavelength of the 3.39‐μm laser‐saturated absorption line of methane. Applied Physics Letters 22(4): 196-199
Baird, K.; Smith, D.; Berger, W. 1973: Wavelength of the CH4 line at 3.39 μm. Optics Communications 7(2): 107-109
Palmgren, S. 1974: Wavelength of the Electrothermal Instability. Physica Scripta 9(3): 184-188
Kessler, E.G.; Deslattes, R.D.; Henins, A. 1979: Wavelength of the WKα1x-ray line. Physical Review A 19(1): 215-218
Hourany, J.; Chauzat, C.; Billard, M.; De Bouard, D.; Lefevre, R. 1995: Wavelength optical/electronic encoding module for ATM optical-switching. IEEE Photonics Technology Letters 7(11): 1306-1308
Yiqiang Hua, .; Yueming Lu, .; Tong Zhao, .; Yuefeng Ji, .; Baoquan Rao, . 2009: Wavelength pre-assignment collision schedule for wavelength-routed optical networks. Chinese Optics Letters 7(11): 978-982
Esmaeili Sani, V.; Moussavi-Zarandi, A.; Kafaee, M. 2011: Wavelength prediction of laser incident on amorphous silicon detector by neural network. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 654(1): 464-470
Hamdalla, T.A. 2013: Wavelength profiles of nonlinear irradiated apodized chirped Bragg grating. Current Applied Physics 13(3): 533-536
Pankaj, R. 1999: Wavelength requirements for multicasting in all-optical networks. IEEE/ACM Transactions on Networking 7(3): 414-424
Pankaj, R.; Gallager, R. 1995: Wavelength requirements of all-optical networks. IEEE/ACM Transactions on Networking 3(3): 269-280
Paul, A. 2011: Wavelength resolution options for a time-of-flight reflectometer using VITESS code of simulation. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 646(1): 158-166
Martini, M.; Meinardi, F.; Rosetta, E.; Spinolo, G.; Vedda, A. 1995: Wavelength resolved thermally stimulated luminescence of Si O2 films. Journal of Non-Crystalline Solids 187: 124-128
Zhang, F.; Yu, Y.; Cheng, C.; Dai, Y.; Zhang, H.; Qiu, J. 2014: Wavelength response and thermal stability of embedded nanograting structure light attenuator fabricated by direct femtosecond laser writing. Applied Physics B 117(1): 53-58
Bertram, H. 1975: Wavelength response in AC biased recording. IEEE Transactions on Magnetics 11(5): 1176-1178
Fujiwara, T. 1980: Wavelength response of harmonic distortion in AC-bias recording. IEEE Transactions on Magnetics 16(3): 501-506
Iwasaki, S.; Nakamura, Y.; Muraoka, H. 1981: Wavelength response of perpendicular magnetic recording. IEEE Transactions on Magnetics 17(6): 2535-2537
Hu, R.Q.; Hu, W.; Jin, M.; Qian, Y. 2009: Wavelength retuning without service interruption in an all-optical survivable network. International Journal of Communication Systems 22(6): 719-738
Šprem, M.; Babić, D. 2019: Wavelength reuse WDM-PON using RSOA and modulation averaging. Optics Communications 451: 1-5
Nirmalathas, A.; Novak, D.; Lim, C.; Waterhouse, R. 2001: Wavelength reuse in the WDM optical interface of a millimeter-wave fiber-wireless antenna base station. IEEE Transactions on Microwave Theory and Techniques 49(10): 2006-2012
Umbanhowar, P.B.; Swinney, H.L. 2000: Wavelength scaling and square/stripe and grain mobility transitions in vertically oscillated granular layers. Physica A: Statistical Mechanics and its Applications 288(1-4): 344-362
Cobble, J.A.; Johnson, R.P.; Mason, R.J. 1998: Wavelength scaling of high-intensity illumination of an exploded foil. Physics of Plasmas 5(11): 4005-4008
Gustafsson, S E.; Khan, M N.; Eijk, J V. 1979: Wavelength scanning and mirror alignment of a new multipass Fabry-Perot interferometer. Journal of Physics E: Scientific Instruments 12(11): 1100-1102
Ma, R.; Li, X.; Dong, X.; Xia, Y. 2018: Wavelength scanning distance interferometry using inflection point retrieval for phase unwrapping. Optics Communications 410: 292-296
Doerr, C.; Joyner, C.; Stulz, L.; Centanni, J. 1997: Wavelength selectable laser with inherent wavelength and single-mode stability. IEEE Photonics Technology Letters 9(11): 1430-1432
Treimer, W. 1996: Wavelength selecting asymmetric Bragg diffraction. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 368(3): 770-774
Širbegović, E.; Čevro, M. 1990: Wavelength selective beamsplitter for extended visible and 1064 nm spectral range. Vacuum 40(1-2): 217-220
Kroutvar, M.; Ducommun, Y.; Finley, J.J.; Bichler, M.; Abstreiter, G.; Zrenner, A. 2003: Wavelength selective charge storage in self-assembled in Ga As/Ga as quantum dots. Applied Physics Letters 83(3): 443-445
Sartorius, B.; Rosenzweig, M. 1986: Wavelength selective infrared microscopy: a nondestructive and quick method for the investigation of buried structures in optoelectronic devices. Journal of Applied Physics 60(10): 3401-3406
Rosca, F.; Kumar, A.T.N.; Ionascu, D.; Sjodin, T.; Demidov, A.A.; Champion, P.M. 2001: Wavelength selective modulation in femtosecond pump–probe spectroscopy and its application to heme proteins. The Journal of Chemical Physics 114(24): 10884-10898
Subias, J.; Alonso, R.; Villuendas, F.; Pelayo, J. 1994: Wavelength selective optical fiber couplers based on longitudinal Fabry-Perot structures. Journal of Lightwave Technology 12(7): 1129-1135
Neilson, D.T.; Doerr, C.R.; Marom, D.M.; Ryf, R.; Earnshaw, M.P. 2006: Wavelength selective switching for optical bandwidth management. Bell Labs Technical Journal 11(2): 105-128
Aihara, S.; Hirano, Y.; Tajima, T.; Tanioka, K.; Abe, M.; Saito, N.; Kamata, N.; Terunuma, D. 2003: Wavelength selectivities of organic photoconductive films: Dye-doped polysilanes and zinc phthalocyanine/tris-8-hydroxyquinoline aluminum double layer. Applied Physics Letters 82(4): 511-513
Lo/bel, M. 1998: Wavelength selectivity of the complex grating structure formed in a photorefractive phase conjugator. Journal of Applied Physics 84(7): 3483-3490
Weinzirl, T.; Aragón-Salamanca, A.; Bamford, S.P.; Rodríguez del Pino, B.; Gray, M.E.; Chies-Santos, A.L. 2015: Wavelength self-calibration and sky subtraction for Fabry–Pérot interferometers: applications to OSIRIS. Monthly Notices of the Royal Astronomical Society 454(2): 1387-1392
Jung, E.; Lee, E.; Mun, S.; Lee, S.; Won, Y.; Han, S. 2013: Wavelength self-initialization technique using allocated light paths of WDM-PON. Microwave and Optical Technology Letters 55(4): 753-755
Torikai, A.; Mitsuoka, T.; Fueki, K. 1993: Wavelength sensitivity of the photoinduced reaction in polycarbonate. Journal of Polymer Science Part A: Polymer Chemistry 31(11): 2785-2788
Ghali, H.; Bianucci, P.; Peter, Y. 2017: Wavelength shift in a whispering gallery microdisk due to bacterial sensing: a theoretical approach. Sensing and Bio-Sensing Research 13: 9-16
Dai, X.; Rollin, E.; Bellerive, A.; Hargrove, C.; Sinclair, D.; Mifflin, C.; Zhang, F. 2008: Wavelength shifters for water Cherenkov detectors. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 589(2): 290-295
Banfi, G.P.; Datta, P.K.; Degiorgio, V.; Fortusini, D. 1998: Wavelength shifting and amplification of optical pulses through cascaded second-order processes in periodically poled lithium niobate. Applied Physics Letters 73(2): 136-138
Adamczewski-Musch, J.; Becker, K.; Belogurov, S.; Boldyreva, N.; Chernogorov, A.; Deveaux, C.; Dobyrn, V.; Dürr, M.; Eom, J.; Eschke, J.; Höhne, C.; Kampert, K.; Kleipa, V.; Kochenda, L.; Kolb, B.; Kopfer, J.; Kravtsov, P.; Lebedev, S.; Lebedeva, E.; Leonova, E.; Linev, S.; Mahmoud, T.; Michel, J.; Miftakhov, N.; Nam, Y.; Niebur, W.; Oh, K.; Ovcharenko, E.; Pauly, C.; Pouryamout, J.; Querchfeld, S.; Rautenberg, J.; Reinecke, S.; Riabov, Y.; Roshchin, E.; Samsonov, V.; Song, J.; Tarasenkova, O.; Torres de Heidenreich, T.; Traxler, M.; Ugur, C.; Vznuzdaev, E.; Vznuzdaev, M.; Yi, J.; Yoo, I. 2014: Wavelength shifting films on multianode PMTs with UV-extended window for the CBM RICH detector. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 766: 180-182
Tan, H.H.; Jagadish, C. 1997: Wavelength shifting in Ga as quantum well lasers by proton irradiation. Applied Physics Letters 71(18): 2680-2682
Di Falco, A.; Conti, C.; Assanto, G. 2004: Wavelength shifting in photonic bandgap microcavities with isotropic media. Applied Physics Letters 85(20): 4585-4587
Marziali, A.; Smith, T.; Schwettman, H. 1995: Wavelength shifting in the Stanford FEL. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 358(1-3): 252-255
Liu, X.; Lu, W.; Chen, X.; Shen, S.C.; Tan, H.H.; Yuan, S.; Jagadish, C.; Johnston, M.B.; Dao, L.V.; Gal, M.; Zou, J.; Cockayne, D.J.H. 2000: Wavelength shifting of adjacent quantum wells in V-groove quantum wire structure by selective implantation and annealing. Journal of Applied Physics 87(3): 1566-1568
Grando, D.; Sottini, S.; Banfi, G.P.; Fortusini, D.; LoPapa, M. 1999: Wavelength shifting of optical pulses in a polydiacetylene waveguide. Applied Physics Letters 74(24): 3601-3603
Cristiani, I.; Banfi, G.P.; Degiorgio, V.; Tartara, L. 1999: Wavelength shifting of optical pulses through cascaded second-order processes in a lithium–niobate channel waveguide. Applied Physics Letters 75(9): 1198-1200
Coombe, P.E. 1981: Wavelength specific behaviour of the whitefly Trialewodes vaporariorum (Homoptera: Aleyrodidae). Journal of Comparative Physiology ? A 144(1): 83-90
Kato, R.; Okita, T.; Kumar, R.; Igo, T.; Konishi, T.; Kuwahara, M.; Fujimoto, M.; Mitani, S.; Okuda, S.; Suemine, S.; Isoyama, G. 2001: Wavelength spectrum of self-amplified spontaneous emission in the far-infrared region. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 475(1-3): 334-338
Zontone, F.; Tuniz, C.; Zanini, F. 1991: Wavelength spread of doubly bent crystals for X-ray microfocusing applications. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 56-57: 968-970
Yize Huang, .; Yi Li, ..; Haifang Wang, .; Xiaojing Yu, .; Hu Zhang, .; Wei Zhang, .; Huiqun Zhu, .; Sheng Zhou, .; Ruoxi Sun, .; Yuming Zhang, . 2011: Wavelength stabilization of a 980-nm semiconductor laser module stabilized with high-power uncooled dual FBG. Chinese Optics Letters 9(3): 031403-31407
Colace, L.; Masini, G.; Assanto, G. 2002: Wavelength stabilization of semiconductor lasers with a tunable photodetector. Applied Physics Letters 80(17): 3039-3041
Bach, L.; Reithmaier, J.; Forchel, A.; Gentner, J.; Goldstein, L. 2003: Wavelength stabilized single-mode lasers by coupled micro-square resonators. IEEE Photonics Technology Letters 15(3): 377-379
He, W.; Zhu, L.; Dong, M.; Luo, F. 2018: Wavelength switchable and stable single-longitudinal-mode erbium-doped fiber laser based on Mach–Zehnder interferometer and tunable filter. International Journal of Optomechatronics 12(1): 31-39
Wu, M.; Chen, S.; Chen, Y.; Li, Y. 2016: Wavelength switchable graphene Q-switched fiber laser with cascaded fiber Bragg gratings. Optics Communications 368: 81-85
Little, B.; Haus, H.; Foresi, J.; Kimerling, L.; Ippen, E.; Ripin, D. 1998: Wavelength switching and routing using absorption and resonance. IEEE Photonics Technology Letters 10(6): 816-818
Peng, P.C.; Wang, H.Y.; Lan, R.L.; Lu, H.H.; Lin, G.R.; Lin, G.; Chi, J.Y. 2012: Wavelength switching based on quantum-dot vertical-cavity surface-emitting laser. Laser Physics 22(9): 1373-1377
Hong, Y.; Shore, K.A.; Lawrence, J.S.; Kane, D.M. 2000: Wavelength switching by positively detuned side-mode injection in semiconductor lasers. Applied Physics Letters 76(22): 3170-3172
White, I.; Penty, R.; Webster, M.; Yew Jun Chai; Wonfor, A.; Shahkooh, S. 2002: Wavelength switching components for future photonic networks. IEEE Communications Magazine 40(9): 74-81
Carreaud, J.; Labruyère, A.; Jaffres, L.; Couderc, V.; Maître, A.; Boulesteix, R.; Brenier, A.; Boulon, G.; Guyot, Y.; Rabinovitch, Y.; Sallé, C. 2012: Wavelength switching in Nd:YSAG ceramic laser induced by thermal effect. Laser Physics Letters 9(5): 344-349
Thiyagarajan, S.M.K.; Kanjamala, A.P.; Levi, A.F.J. 1998: Wavelength switching in multi-cavity laser diodes. Journal of Applied Physics 84(4): 1805-1812
Kanjamala, A.P.; Levi, A.F.J. 1997: Wavelength switching in multicavity lasers. Applied Physics Letters 71(3): 300-302
Okhotnikov, O.G.; Araújo, F.M.; Salcedo, J.R. 1994: Wavelength switching in pump‐diode‐modulated mode‐locked and Q‐switched Er‐fiber laser. Applied Physics Letters 65(23): 2910-2912
Lin, C.; Wang, L. 2015: Wavelength switching of erbium-doped fiber laser by using Mach–Zehnder interferometer and cavity loss control. Optics Communications 334: 27-30
Shenping Li; Kam Tai Chan; Caiyun Lou, 1998: Wavelength switching of picosecond pulses in a self-seeded Fabry-Perot semiconductor laser with external fiber Bragg grating cavities by optical injection. IEEE Photonics Technology Letters 10(8): 1094-1096
Hao Ding; Shenping Li; Fang, Z.; Kam Tai Chan, 1997: Wavelength switching of semiconductor laser pulses by self-seeding from a chirped fiber Bragg grating. IEEE Photonics Technology Letters 9(7): 901-903
Mayweather, D.; Kazovsky, L.; Downs, M.; Frigo, N. 1996: Wavelength tracking of a remote WDM router in a passive optical network. IEEE Photonics Technology Letters 8(9): 1238-1240
Chu, S.; Pan, W.; Sato, S.; Kaneko, T.; Little, B.; Kokubun, Y. 1999: Wavelength trimming of a microring resonator filter by means of a UV sensitive polymer overlay. IEEE Photonics Technology Letters 11(6): 688-690
Peng, L.; Hsu, C.; Ng, J.; Kung, A.H. 2004: Wavelength tunability of second-harmonic generation from two-dimensional χ(2) nonlinear photonic crystals with a tetragonal lattice structure. Applied Physics Letters 84(17): 3250-3252
Offrein, B.; Horst, F.; Bona, G.; Salemink, H.; Germann, R.; Beyeler, R. 1999: Wavelength tunable 1-from-16 and flat passband 1-from-8 add-drop filters. IEEE Photonics Technology Letters 11(11): 1440-1442
Ju Han Lee; Kogure, T.; Richardson, D. 2004: Wavelength tunable 10-GHz 3-ps pulse source using a dispersion decreasing fiber-based nonlinear optical loop mirror. IEEE Journal of Selected Topics in Quantum Electronics 10(1): 181-185
Yan, Y.; Wang, J.; Wang, L.; Cheng, Z. 2018: Wavelength tunable L Band polarization-locked vector soliton fiber laser based on SWCNT-SA and CFBG. Optics Communications 412: 55-59
Kojou, J.; Watanabe, Y.; Agrawal, P.; Kamimura, T.; Kannari, F. 2013: Wavelength tunable Q-switch laser in visible region with Pr3+-doped fluoride-glass fiber pumped by Ga N diode laser. Optics Communications 290: 136-140
David, C.; Nöhammer, B.; Ziegler, E. 2001: Wavelength tunable diffractive transmission lens for hard x rays. Applied Physics Letters 79(8): 1088-1090
Wei, X.M.; Xu, S.H.; Dong, G.P.; Yang, Z.M. 2011: Wavelength tunable femtosecond laser based on short Er3+/Yb3+ codoped phosphate fiber. Laser Physics 21(8): 1410-1414
Fox, G.R.; Muller, C.A.P.; Setter, N.; Costantini, D.M.; Ky, N.H.; Limberger, H.G. 1997: Wavelength tunable fiber Bragg grating devices based on sputter deposited resistive and piezoelectric coatings. Journal of Vacuum Science-Technology A: Vacuum, Surfaces, and Films 15(3): 1791-1795
Ibarra-Escamilla, B.; Pottiez, O.; Zhou, R.; Zhan, Q.; Powers, P.E.; Kuzin, E.A.; Haus, J.W. 2011: Wavelength tunable high power laser using a double-clad Er:Yb doped fiber. Laser Physics 21(11): 1936-1940
Anantathanasarn, S.; Barbarin, Y.; Cade, N.; van Veldhoven, P.; Bente, E.; Oei, Y.; Kamada, H.; Smit, M.; Nötzel, R. 2008: Wavelength tunable in As/in P(100) quantum dots in 1.55-μm telecom devices. Materials Science and Engineering: B147(2-3): 124-130
Offrein, B.; Bona, G.; Horst, F.; Salemink, W.; Beyeler, R.; Germann, R. 1999: Wavelength tunable optical add-after-drop filter with flat passband for WDM networks. IEEE Photonics Technology Letters 11(2): 239-241
Chen, J.; Wang, D. 2003: Wavelength tunable optical short pulse generation by self-seeding of a gain-switched Fabry–Pérot laser diode with extended wavelength-tuning range. Optics Communications 226(1-6): 345-350
Liqiang Zhang, L.Z.; Zhuang Zhuo, Z.Z.; Rusheng Wei, R.W.; Yunzheng Wang, Y.W.; Xiufang Chen, X.C.; Xiangang Xu, X.X. 2014: Wavelength tunable passively Q-switched Yb-doped double-clad f iber laser with graphene grown on Si C. Chinese Optics Letters 12(2): 021405-21408
Yang, C.; Xia, L.; Wang, Y.; Liu, D. 2014: Wavelength tunable single longitudinal mode fiber laser pinned to 25 GHz spacing. Microwave and Optical Technology Letters 56(10): 2404-2406
Ma, L.; Li, C.; Liang, Q.; Wang, S.; Cao, D. 2018: Wavelength tunable tetraphenylethene fluorophore dyads: Synthesis, aggregation-induced emission and Cl2 gas detection. Dyes and Pigments 149: 543-552
Park, H.; Park, C.; Hwang, B.; Lee, S.G.; O, B.; Lee, E.; Choi, D.; Park, S. 2005: Wavelength tunable thermo-optic filter using buckling effect of etalon composed poly-Si/Si O2 multi-layers. Optical Materials 27(5): 787-791
Brennan, M.J.; Milgram, J.N.; Mascher, P.; Haugen, H.K. 2002: Wavelength tunable ultrashort pulse generation from a passively mode-locked asymmetric-quantum-well semiconductor laser. Applied Physics Letters 81(14): 2502-2504
Zhang, C.; Zhang, Y.; Hu, M.; Wang, S.; Song, Y.; Chai, L.; Wang, C. 2012: Wavelength tunable, high energy femtosecond laser pulses directly generated from large-mode-area photonic crystal fiber. Optics Communications 285(10-11): 2715-2718
Xu, Z Y.; Wang, J.; Wang, Y.; Ge, W K.; Li, Q.; Li, S S.; Henini, M. 1999: Wavelength tuning in Ga As/Al Ga as quantum wells by in as submonolayer insertion. Journal of Physics: Condensed Matter 11(17): 3629-3633
Ong, T.K.; Chan, Y.C.; Lam, Y.L.; Ooi, B.S. 2001: Wavelength tuning in in Ga As/in Ga as P quantum well lasers using pulsed-photoabsorption-induced disordering. Applied Physics Letters 78(18): 2637-2639
Taniguchi, H.; Tomisawa, H. 1994: Wavelength tuning in spherical liquid dye lasers by controlling the cavity Qvalues. Applied Physics Letters 65(26): 3305-3307
Cockerill, T.M.; Forbes, D.V.; Han, H.; Turkot, B.A.; Dantzig, J.A.; Robertson, I.M.; Coleman, J.J. 1994: Wavelength tuning in strained layer in Ga As-Ga As-Al Ga as quantum well lasers by selective-area MOCVD. Journal of Electronic Materials 23(2): 115-119
Zhao, Y.; Shu, C.; Chen, J.H.; Choa, F.S. 1998: Wavelength tuning of 1/2-rational harmonically mode-locked pulses in a cavity-dispersive fiber laser. Applied Physics Letters 73(24): 3483-3485
Samal, N.; Sadofyev, Y.; Annamalai, S.; Chen, L.; Samal, A.; Johnson, S. 2011: Wavelength tuning of Ga As/Al Ga as terahertz quantum cascade lasers by controlling aluminum content in barriers. Journal of Crystal Growth 323(1): 477-479
Kopeika, N.; Aharoni, H.; Hirsh, I.; Hava, S.; Lupo, I. 1983: Wavelength tuning of Ga as LED's through surface effects. IEEE Transactions on Electron Devices 30(4): 334-347
Aikio, J.; Karioja, P. 1999: Wavelength tuning of a laser diode by using a micromechanical Fabry-Perot interferometer. IEEE Photonics Technology Letters 11(10): 1220-1222
Chin, S.; Bedard, G. 1971: Wavelength tuning of a superradiant travelling-wave dye laser. Optics Communications 4(2): 148-149
Runge, P. 1972: Wavelength tuning of an intracavity pumped CW mode-locked dye laser. Optics Communications 5(5): 311-314
Goh, C.; Mokhtar, M.; Butler, S.; Set, S.; Kikuchi, K.; Ibsen, M. 2003: Wavelength tuning of fiber Bragg gratings over 90 nm using a simple tuning package. IEEE Photonics Technology Letters 15(4): 557-559
Burkner, S.; Ralston, J.; Weisser, S.; Rosenzweig, J.; Larkins, E.; Sah, R.; Fleissner, J. 1995: Wavelength tuning of high-speed in Ga As-Ga As-Al Ga as pseudomorphic MQW lasers via impurity-free interdiffusion. IEEE Photonics Technology Letters 7(9): 941-943
Yan, J.; Gong, Q.; Kang, C.; Xu, H.; Cao, C.; Li, Y.; Wang, S.; Wang, H. 2015: Wavelength tuning of in as quantum dot laser by micromirror device. Journal of Crystal Growth 425: 373-375
Fréchengues, S.; Bertru, N.; Drouot, V.; Lambert, B.; Robinet, S.; Loualiche, S.; Lacombe, D.; Ponchet, A. 1999: Wavelength tuning of in as quantum dots grown on (311)B in P. Applied Physics Letters 74(22): 3356-3358
Gong, Q.; Nötzel, R.; van Veldhoven, P.J.; Eijkemans, T.J.; Wolter, J.H. 2004: Wavelength tuning of in as quantum dots grown on in P (100) by chemical-beam epitaxy. Applied Physics Letters 84(2): 275-277
Walbaum, T.; Fallnich, C. 2012: Wavelength tuning of multimode interference bandpass filters by mechanical bending: experiment and theory in comparison. Applied Physics B 108(1): 117-124
Konjević, R.; Konjević, N. 1977: Wavelength tuning of nitrogen pumped dye laser. Optics Communications 23(2): 187-188
Xu, G.; Tazawa, M.; Jin, P.; Nakao, S.; Yoshimura, K. 2003: Wavelength tuning of surface plasmon resonance using dielectric layers on silver island films. Applied Physics Letters 82(22): 3811-3813
Garside, B.; Shewchun, J.; Kawasaki, B. 1971: Wavelength tuning of the stimulated emission from Ga as and Cd Se electron-beam-pumped lasers. IEEE Journal of Quantum Electronics 7(2): 88-93
Xiao, G.; Mrad, N.; Zhang, Z. 2009: Wavelength tuning using an arrayed waveguide gratings demultiplexer. Microwave and Optical Technology Letters 51(3): 693-696
Young, M.; Koch, T.; Tennant, D.; Chien, M.; Koren, U.; Miller, B.; Feder, K. 1995: Wavelength uniformity in λ/4 shifted DFB laser array WDM transmitters. Electronics Letters 31(20): 1750-1752
Rowley, W R C.; Wallard, A J. 1973: Wavelength values of the 633 nm laser, stabilized with127I2saturated absorption. Journal of Physics E: Scientific Instruments 6(7): 647-652
Kishino, K.; Aoki, S.; Suematsu, Y. 1982: Wavelength variation of 1.6 µm wavelength buried heterostructure Ga in as P/in P lasers due to direct modulation. IEEE Journal of Quantum Electronics 18(3): 343-351
Ferrar, C. 1969: Wavelength variations of a flashlamp-pumped sodium fluorescein dye laser. IEEE Journal of Quantum Electronics 5(12): 621-622
Deutsch, M.; Hart, M. 1982: Wavelength, energy shape, and structure of the Cu Kα1x-ray emission line. Physical Review B 26(10): 5558-5567
Caricato, A.P.; Quarta, G.; Manno, D.; Cesaria, M.; Perrone, A.; Martino, M.; Serra, A.; Calcagnile, L.; Barone, G.; Lorusso, A. 2019: Wavelength, fluence and substrate-dependent room temperature pulsed laser deposited B-enriched thick films. Applied Surface Science 483: 1044-1051
Loze, M.; Middleton, B.; Ryley, A. 1996: Wavelength, frequency and interface effects in magnetic recording system replay noise spectra. Journal of Magnetism and Magnetic Materials 159(1-2): 249-255
Abbott, D.S. 2015: Wavelength, frequency, and constant speed buggies. The Physics Teacher 53(8): 502-503
Das, R. 2015: Wavelength- and Frequency-Dependent Formulations of Wien's Displacement Law. Journal of Chemical Education 92(6): 1130-1134
Yin, B.; Sang, G.; Yan, R.; Wu, Y.; Wu, S.; Wang, M.; Liu, W.; Li, H.; Wang, Q. 2020: Wavelength- and Intensity-Demodulated Dual-Wavelength Fiber Laser Sensor for Simultaneous RH and Temperature Detection. IEEE Access 8: 52091-52099
Yoshifuji, M.; Sato, T.; Inamoto, N. 1988: Wavelength- and Temperature-dependent Photolysis of a Diphosphene. Generation of 2,4,6-Tri-t-butylphenylphosphinidene and E/ZIsomerization. Chemistry Letters 17(10): 1735-1738
Samokhvalov, A.; Naaman, R. 2000: Wavelength- and Time-Dependent Two-Photon Photoemission Spectroscopy of Dye-Coated Silicon Surface. The Journal of Physical Chemistry B 104(47): 11248-11252
Zechmann, C.; Muskat, T.; Grotemeyer, J. 2002: Wavelength- and Time-Resolved Luminescence Spectroscopy for Investigation of the Matrix-Assisted Laser Desorption Process. European Journal of Mass Spectrometry 8(4): 287-293
de Matos, C.J.S.; Chestnut, D.A.; Taylor, J.R. 2002: Wavelength- and duration-tunable soliton source based on a 20-GHz Mach–Zehnder modulator and adiabatic Raman compression. Applied Physics Letters 81(16): 2932-2934
Lee, Y.; Suche, H.; Min, Y.; Lee, J.; Grundkotter, W.; Quiring, V.; Sohler, W. 2003: Wavelength- and time-selective all-optical channel dropping in periodically poled Ti:Li Nb O3 channel waveguides. IEEE Photonics Technology Letters 15(7): 978-980
Rodríguez Núñez, J.R.; Kelly, J.A.; Henderson, E.J.; Veinot, J.G.C. 2012: Wavelength-Controlled Etching of Silicon Nanocrystals. Chemistry of Materials 24(2): 346-352
De Alwis Watuthanthrige, N.; Reeves, J.A.; Dolan, M.T.; Valloppilly, S.; Zanjani, M.B.; Ye, Z.; Konkolewicz, D. 2020: Wavelength-Controlled Synthesis and Degradation of Thermoplastic Elastomers Based on Intrinsically Photoresponsive Phenyl Vinyl Ketone. Macromolecules 53(13): 5199-5207
Zhao, S.Y.; Green, P. 2010: Wavelength-Dependence of Exposure-Induced Fluorescent Fading. Advanced Materials Research 174: 337-340
Ye, F.; Tu, J.; Saitoh, K.; Takenaga, K.; Matsuo, S.; Takara, H.; Morioka, T. 2016: Wavelength-Dependence of Inter-Core Crosstalk in Homogeneous Multi-Core Fibers. IEEE Photonics Technology Letters 28(1): 27-30
Tanaka, Y.; Sugimoto, Y.; Ikeda, N.; Nakamura, H.; Asakawa, K.; Inoue, K. 2005: Wavelength-Dependent Coupling Characteristics in Two-Dimensional Photonic-Crystal Slab Directional Coupler. Japanese Journal of Applied Physics 44(7A): 4971-4974
Schill, A.W.; El-Sayed, M.A. 2004: Wavelength-Dependent Hot Electron Relaxation in PVP Capped Cd S/Hg S/Cd S Quantum Dot Quantum well Nanocrystals. The Journal of Physical Chemistry B 108(36): 13619-13625
Qiu, M.; Chen, M.; Zhang, Z. 2021: Wavelength-Dependent Kerr Beam Self-Cleaning in Spatiotemporal Mode-Locked Multimode Fiber Laser. IEEE Photonics Technology Letters 33(19): 1073-1076
Khan, S.A. 2005: Wavelength-Dependent Modifications in Helmholtz Optics. International Journal of Theoretical Physics 44(1): 95-125
Sabari Girisun, T.; Saravanan, M.; Soma, V.R. 2018: Wavelength-Dependent Nonlinear Optical Absorption and Broadband Optical Limiting in Au-Fe2O3-r GO Nanocomposites. ACS Applied Nano Materials 1(11): 6337-6348
Utry, N.; Ajtai, T.; Pintér, M.; Bozóki, Z.; Szabó, G. 2014: Wavelength-Dependent Optical Absorption Properties of Artificial and Atmospheric Aerosol Measured by a Multi-Wavelength Photoacoustic Spectrometer. International Journal of Thermophysics 35(12): 2246-2258
Wu, J.; Kassou, S.; Thakur, D.; Dwivedi, R.P.; Chang, S.H. 2020: Wavelength-Dependent Optical Chiralities of Symmetric and Asymmetric 2-Shaped au Nanorod Structures at Nanoscales. Plasmonics 15(6): 2053-2059
Bernatová, S.; Donato, M.G.; Ježek, J.; Pilát, Z.; Samek, O.; Magazzù, A.; Maragò, O.M.; Zemánek, P.; Gucciardi, P.G. 2019: Wavelength-Dependent Optical Force Aggregation of Gold Nanorods for SERS in a Microfluidic Chip. The Journal of Physical Chemistry C 123(9): 5608-5615
Hintz, H.; Sessler, C.; Peisert, H.; Egelhaaf, H.; Chassé, T. 2012: Wavelength-Dependent Pathways of Poly-3-hexylthiophene Photo-Oxidation. Chemistry of Materials 24(14): 2739-2743
Fast, D.E.; Lauer, A.; Menzel, J.P.; Kelterer, A.; Gescheidt, G.; Barner-Kowollik, C. 2017: Wavelength-Dependent Photochemistry of Oxime Ester Photoinitiators. Macromolecules 50(5): 1815-1823
Panesar, R.S.; Dunwoody, N.; Lees, A.J. 1998: Wavelength-Dependent Photochemistry of W(CO)4(en) (en = Ethylenediamine):  Evidence for Distinct Chemical Reactivities from Singlet and Triplet Ligand Field Excited States. Inorganic Chemistry 37(7): 1648-1650
Kim, J.; Kang, D.J.; Bae, B. 2005: Wavelength-Dependent Photosensitivity in a Germanium-Doped Sol-Gel Hybrid Material for Direct Photopatterning. Advanced Functional Materials 15(11): 1870-1876
Wertz, E.A.; Isaacoff, B.P.; Biteen, J.S. 2016: Wavelength-Dependent Super-resolution Images of Dye Molecules Coupled to Plasmonic Nanotriangles. ACS Photonics 3(10): 1733-1740
Krauth, J.; Giessen, H.; Hentschel, M. 2018: Wavelength-Dependent Third-Harmonic Generation in Plasmonic Gold Nanoantennas: Quantitative Determination of the d-Band Influence. ACS Photonics 5(5): 1863-1870
Jin, J.; Li, X.; Pu, M.; Ma, X.; Luo, X. 2018: Wavelength-Dependent Three-Dimensional Volumetric Optical Vortices Modulation Based on Metasurface. IEEE Photonics Journal 10(6): 1-8
Cao, F.; Donnarumma, F.; Murray, K.K. 2019: Wavelength-Dependent Tip-Enhanced Laser Ablation of Organic Dyes. The Journal of Physical Chemistry C 124(3): 1918-1922
Grigioni, I.; Stamplecoskie, K.G.; Jara, D.H.; Dozzi, M.V.; Oriana, A.; Cerullo, G.; Kamat, P.V.; Selli, E. 2017: Wavelength-Dependent Ultrafast Charge Carrier Separation in the WO3/Bi VO4 Coupled System. ACS Energy Letters 2(6): 1362-1367
Zhou, R.; Sun, X.; Mhanna, R.; Malval, J.; Jin, M.; Pan, H.; Wan, D.; Morlet-Savary, F.; Chaumeil, H.; Joyeux, C. 2020: Wavelength-Dependent, Large-Amplitude Photoinitiating Reactivity within a Carbazole-Coumarin Fused Oxime Esters Series. ACS Applied Polymer Materials 2(5): 2077-2085
Awaji, N.; Ozaki, S.; Nishino, J.; Noguchi, S.; Yamamoto, T.; Syoji, T.; Yamagami, M.; Kobayashi, A.; Hirai, Y.; Shibata, M.; Yamaguchi, K.; Liu, K.; Kawado, S.; Takahashi, M.; Yasuami, S.; Konomi, I.; Kimura, S.; Hirai, Y.; Hasegawa, M.; Komiya, S.; Hirose, T.; Okajima, T. 2000: Wavelength-Dispersive Total Reflection X-Ray Fluorescence with High-Brilliance Undulator Radiation at SPring-8. Japanese Journal of Applied Physics 39(Part 2, No. 12A): L1252-L1255
Ulrich, M.; Yang, B. 2019: Wavelength-Diverse MIMO Radar: Parameter-Coupling, Array-Carrier Optimization and Direction-of-Arrival Estimation. IEEE Transactions on Aerospace and Electronic Systems 55(4): 1920-1932
Yoneyama, M.; Fujii, A.; Maeda, S. 1995: Wavelength-Doubled Spiral Fragments in Photosensitive Monolayers. Journal of the American Chemical Society 117(31): 8188-8191
Gupta, R.K.; Chandran, S.; Das, B.K. 2017: Wavelength-Independent Directional Couplers for Integrated Silicon Photonics. Journal of Lightwave Technology 35(22): 4916-4923
Qiaoqiang Gan; Haifeng Hu; Huina Xu; Ke Liu; Jiang, S.; Cartwright, A.N. 2011: Wavelength-Independent Optical Polarizer Based on Metallic Nanowire Arrays. IEEE Photonics Journal 3(6): 1083-1092
Paloczi, G.; Eyal, A.; Yariv, A. 2004: Wavelength-Insensitive Nonadiabatic Mode Evolution Couplers. IEEE Photonics Technology Letters 16(2): 515-517
Hu, T.; Li, J.; Zhang, Y.; Li, Z.; He, Y.; Chen, Z. 2018: Wavelength-Insensitive Weakly Coupled FMFs and Components for the MDM-GPON. IEEE Photonics Technology Letters 30(14): 1277-1280
Xing, Z.; Xiang, M.; Li, X.; El-Fiky, E.; Saber, M.G.; Xu, L.; Koh, P.; Plant, D. 2020: Wavelength-Interleaved 4D-PAM4-TCM in a 4-λ × 100 Gb/s CWDM System. IEEE Photonics Technology Letters 32(13): 755-758
Zhe, Z.; Jie, L.; Dan-Feng, L.; Zhi-Mei, Q. 2014: Wavelength-Interrogated Surface Plasmon Resonance Sensor Based on Au-Ag Alloy Film. Acta Physico-Chimica Sinica 30(9): 1771-1777
Wang, T.; Yixian Ge; Chang, J.; Ming Wang, 2016: Wavelength-Interrogation Fabry–Perot Refractive Index Sensor Based on a Sealed In-Fiber Cavity. IEEE Photonics Technology Letters 28(1): 3-6
Babonas, G.; Ambrazevičius, G.; Grigoreva, V.S.; Neviera, V.; Šileika, A. 1974: Wavelength-Modulated Absorption Spectra of Pseudodirect Bandgap A2B4C25 Compounds. Physica status solidi (b) 62(1): 327-334
Choi, S.; Mandelis, A.; Guo, X.; Lashkari, B.; Kellnberger, S.; Ntziachristos, V. 2014: Wavelength-Modulated Differential Photoacoustic Spectroscopy (WM-DPAS): Theory of a High-Sensitivity Methodology for the Detection of Early-Stage Tumors in Tissues. International Journal of Thermophysics 36(5-6): 1305-1311
Koganezawa, T.; Handa, K.; Nakamura, N.; Yoshimura, Y.; Iwasaki, H.; Yamada, T.; Shoji, T. 2001: Wavelength-Modulated Diffraction System. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 467-468: 1053-1056
Stearns, R.; Braunstein, R.; Muldawer, L. 1985: Wavelength-Modulated Spectra of the Optical Properties of β′-Cux Zn1−x from 1.5 to 5.1 e V at the β′ ⇄ α + β′ Phase Transition. Physica status solidi (b) 130(2): 595-606
Chen, K.; Huang, Q.; Zhang, J.; Cheng, J.; Fu, X.; Zhang, C.; Ma, K.; Shi, Y.; Van Thourhout, D.; Roelkens, G.; Liu, L.; He, S. 2016: Wavelength-Multiplexed Duplex Transceiver Based on III-V/Si Hybrid Integration for Off-Chip and On-Chip Optical Interconnects. IEEE Photonics Journal 8(1): 1-10
Ji, J.; Zhai, Y.; Wu, Z.; Ma, X.; Wang, Q. 2020: Wavelength-Polarization Multiplexer for Routing and Detection of Surface Plasmon Polaritons Based on Plasmonic Gratings. ACS Photonics 7(8): 2115-2121
Alves, D.I.; Palm, B.G.; Hellsten, H.; Vu, V.T.; Pettersson, M.I.; Machado, R.; Uchoa-Filho, B.F.; Dammert, P. 2020: Wavelength-Resolution SAR Change Detection Using Bayes' Theorem. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 13: 5560-5568
Vu, V.T. 2017: Wavelength-Resolution SAR Incoherent Change Detection Based on Image Stack. IEEE Geoscience and Remote Sensing Letters 14(7): 1012-1016
Lin, S.; Wang, P.; Chen, A.; Chang, C.; Lin, C. 2011: Wavelength-Resolved Flow Cytometer Under a Dark-Field Illumination Configuration. IEEE Sensors Journal 11(11): 2845-2851
Mork, B.J.; Scheeline, A. 1988: Wavelength-Resolved Single-Spark Emission Images with the use of a Charge Coupled Device Detector. Applied Spectroscopy 42(8): 1332-1335
Grimes, A.F.; Call, S.E.; Harbron, E.J.; English, D.S. 2007: Wavelength-Resolved Studies of Förster Energy Transfer in Azobenzene-Modified Conjugated Polymers:  the Competing Roles of Exciton Migration and Spectral Resonance. The Journal of Physical Chemistry C 111(38): 14257-14265
Liu, F.; Zhang, H.; Chen, Y.; Huang, Z.; Gu, H. 2019: Wavelength-Reused Hierarchical Optical Network on Chip Architecture for Manycore Processors. IEEE Transactions on Sustainable Computing 4(2): 231-244
Zhou, X.; Jeffries, J.B.; Hanson, R.K.; Li, G.; Gutmark, E.J. 2007: Wavelength-Scanned Tunable Diode Laser Temperature Measurements in a Model Gas Turbine Combustor. AIAA Journal 45(2): 420-425
Katagiri, Y.; Takesue, H.; Hashimoto, E. 2005: Wavelength-Scanning Optical Bandpass Filters Based on Optomechatronics for Optical-Frequency Sweepers. IEEE Transactions on Industrial Electronics 52(4): 992-1004
Yashiki, K.; Sato, K.; Morimoto, T.; Sudo, S.; Naniwae, K.; Ae, S.; Shiba, K.; Suzuki, N.; Sasaki, T.; Kudo, K. 2004: Wavelength-Selectable Light Sources Fabricated Using Advanced Microarray-Selective Epitaxy. IEEE Photonics Technology Letters 16(7): 1619-1621
Simmons, J.M.; Saleh, A.A.M. 2015: Wavelength-Selective CDC ROADM Designs Using Reduced-Sized Optical Cross-Connects. IEEE Photonics Technology Letters 27(20): 2174-2177
An, J. 2007: Wavelength-Selective Device Using a Phase Delay Layer and two Polarization-Sensitive Gratings. IEEE Photonics Technology Letters 19(6): 369-371
Rashid, I.; Butt, H.; Yetisen, A.K.; Dlubak, B.; Davies, J.E.; Seneor, P.; Vechhiola, A.; Bouamrane, F.; Xavier, S. 2017: Wavelength-Selective Diffraction from Silica Thin-Film Gratings. ACS Photonics 4(10): 2402-2409
Gumbley, P.; Koylu, D.; Pawle, R.H.; Umezuruike, B.; Spedden, E.; Staii, C.; Thomas Iii, S.W. 2014: Wavelength-Selective Disruption and Triggered Release with Photolabile Polyelectrolyte Multilayers. Chemistry of Materials 26(3): 1450-1456
Jung, J.; Lee, J.; Choi, D.; Choi, J.; Jeong, J.; Lee, E.; Neikirk, D.P. 2015: Wavelength-Selective Infrared Metasurface Absorber for Multispectral Thermal Detection. IEEE Photonics Journal 7(6): 1-10
Jung, Y.; Jong-Bum You; Kwon, K.; Kyoungsik Yu, 2014: Wavelength-Selective Optical Filters Based on Metal-Patch Cavities with Slot Waveguide Interfaces. IEEE Photonics Journal 6(4): 1-10
Mahmoud, M.A.; Garlyyev, B.; El-Sayed, M.A. 2015: Wavelength-Selective Photocatalysis Using Gold–Platinum Nanorattles. The Journal of Physical Chemistry C 119(32): 18618-18626
Poon, J.; Scheuer, J.; Yariv, A. 2004: Wavelength-Selective Reflector Based on a Circular Array of Coupled Microring Resonators. IEEE Photonics Technology Letters 16(5): 1331-1333
Zaidi, S.; Lamarque, F.; Favergeon, J.; Carton, O.; Prelle, C. 2011: Wavelength-Selective Shape Memory Alloy for Wireless Microactuation of a Bistable Curved Beam. IEEE Transactions on Industrial Electronics 58(12): 5288-5295
Strasser, T.A.; Wagener, J.L. 2010: Wavelength-Selective Switches for ROADM Applications. IEEE Journal of Selected Topics in Quantum Electronics 16(5): 1150-1157
Sumriddetchkajorn, S.; Chaitavon, K. 2004: Wavelength-Sensitive Thin-Film Filter-Based Variable Fiber-Optic Attenuator with an Embedded Monitoring Port. IEEE Photonics Technology Letters 16(6): 1507-1509
Liu, S.; Zhang, Z.; Shen, J.; Yu, K. 2019: Wavelength-Spacing Adjustable Dual-Wavelength Dissipative Soliton Resonance Thulium-Doped Fiber Laser. IEEE Photonics Journal 11(2): 1-9
Ma, W.; Wang, T.; Su, Y.; Zhang, Y.; Liu, P.; Jia, Q.; Zhang, P.; Jiang, H. 2016: Wavelength-Spacing Switchable Dual-Wavelength Single Longitudinal Mode Thulium-Doped Fiber Laser at 1.9 μm. IEEE Photonics Journal 8(6): 1-8
Pramanik, P.; Sen, S.; Singha, C.; Roy, A.S.; Das, A.; Sen, S.; Sridhara Rao, D.V.; Bhattacharyya, A. 2016: Wavelength-Specific Ultraviolet Photodetectors Based on Al Ga N Multiple Quantum Wells. IEEE Journal of Quantum Electronics 52(3): 1-6
Maiwald, M.; Ginolas, A.; Muller, A.; Sahm, A.; Sumpf, B.; Erbert, G.; Trankle, G. 2008: Wavelength-Stabilized Compact Diode Laser System on a Microoptical Bench with 1.5-W Optical Output Power at 671 nm. IEEE Photonics Technology Letters 20(19): 1627-1629
Lee, H.; Lee, H.D.; Jeong, M.; Kim, C. 2015: Wavelength-Swept Cascaded Raman Fiber Laser around 1300 nm for OCT Imaging. Journal of the Optical Society of Korea 19(2): 154-158
Qiao, P.; Cook, K.T.; Li, K.; Chang-Hasnain, C.J. 2017: Wavelength-Swept VCSELs. IEEE Journal of Selected Topics in Quantum Electronics 23(6): 1-16
Lee, S.; Park, K.; Jo, S.; Choi, S.; Jeong, J.H.; Jeong, S.J.; Christian, N.J.; Kim, J.; Lee, Y.W. 2017: Wavelength-Switchable Erbium-Doped Fiber Ring Laser Using Inline Fiber Bragg Grating Filter. Journal of Nanoscience and Nanotechnology 17(10): 7804-7809
Tang, M.; Jiang, Y.; Zhao, Q.; Cao, M.; Mi, Y.; Jian, W.; Ren, W.; Ren, G. 2019: Wavelength-Switchable Fiber Laser Based on Mach-Zehnder Filter with LP11 Mode Output. IEEE Photonics Technology Letters 31(20): 1623-1626
Nagai, K.; Kawaguchi, T.; Yamashita, K. 2014: Wavelength-Switchable Lasing from a Polymer Single Chip Device Codoped with Organic Dyes. IEEE Photonics Technology Letters 26(17): 1707-1710
Chen, J.; Wang, D.N.; Wang, Z. 2020: Wavelength-Switchable Multiple Type Bound Solitons in a Passively Mode-Locked Er-Doped Fiber Laser. IEEE Photonics Technology Letters 32(22): 1447-1450
Han, W.; Yan, F.; Feng, T.; Zhang, L.; Guan, B.; Qin, Q.; Guo, Y.; Li, T.; Zhou, H.; Suo, Y. 2021: Wavelength-Switchable Single-Longitudinal- Mode Thulium-Doped Fiber Laser with Sampled Fiber Bragg Grating. IEEE Access 9: 62212-62218
Schaich, F.; Speidel, J. 2007: Wavelength-Time Coding for Reduction of Linear and Nonlinear Crosstalk in DWDM-Systems. IEEE Journal of Selected Topics in Quantum Electronics 13(5): 1429-1432
Roth, J.; Ulmer, T.; Spellmeyer, N.; Constantine, S.; Grein, M. 2004: Wavelength-Tunable 40-GHz Picosecond Harmonically Mode-Locked Fiber Laser Source. IEEE Photonics Technology Letters 16(9): 2009-2011
Eom, T.J.; Sung, J.H.; Kee, C.; Ko, D.; Lee, J.; Choi, E.S. 2008: Wavelength-Tunable Broadband Frequency-Domain OCT Source Based on Spatially Filtered Sub-10-fs Pulsed Laser. IEEE Photonics Technology Letters 20(12): 994-996
Liu, J.; Li, X.; Zhang, S.; Han, M.; Han, H.; Yang, Z. 2019: Wavelength-Tunable Burst-Mode Pulse with Controllable Pulse Numbers and Pulse Intervals. IEEE Journal of Selected Topics in Quantum Electronics 25(4): 1-6
Chen, G.; Zhao, W.; Lu, D.; Guo, L.; Wang, H.; Zhou, D.; Huang, Y.; Liang, S.; Zhao, L. 2019: Wavelength-Tunable Chaotic Signal Generation with On-Chip O/E Conversion. IEEE Photonics Technology Letters 31(14): 1179-1182
Nishizawa, N.; Ito, Y.; Goto, T. 2003: Wavelength-Tunable Femtosecond Soliton Pulse Generation for Wavelengths of 0.78–1.0 µm Using Photonic Crystal Fibers and a Ultrashort Fiber Laser. Japanese Journal of Applied Physics 42(Part 1, No. 2A): 449-452
Takashina, S.; Mori, Y.; Hasegawa, H.; Sato, K.; Watanabe, T. 2015: Wavelength-Tunable Filters Utilizing Arrayed Waveguide Gratings for Colorless/Directionless/Contentionless Optical Signal Drop in ROADMs. IEEE Photonics Journal 7(1): 1-11
Liu, M.; Jiang, M.; Liu, Y.; Tang, K.; Shi, D.N.; Kan, C. 2021: Wavelength-Tunable Green Light Sources Based on Zn O:Ga Nanowire/p-in Ga N Heterojunctions. ACS Applied Nano Materials 4(10): 11168-11179
Ouyang, C.; Shum, P.; Wang, H.; Fu, S.; Cheng, X.; Wong, J.H.; Tian, X. 2011: Wavelength-Tunable High-Energy All-Normal-Dispersion Yb-Doped Mode-Locked All-Fiber Laser with a Hi Bi Fiber Sagnac Loop Filter. IEEE Journal of Quantum Electronics 47(2): 198-203
Yeh, C.; Chow, C.; Shih, F.; Wang, C.; Wu, Y.; Chi, S. 2009: Wavelength-Tunable Laser for Signal Remodulation in WDM Access Networks Using DPSK Downlink and OOK Uplink. IEEE Photonics Technology Letters 21(22): 1710-1712
Ishii, Y. 1999: Wavelength-Tunable Laser-Diode Interferometer. Optical Review 6(4): 273-283
Faggi, E.; Aguilera, J.; Sáez, R.; Pujol, F.; Marquet, J.; Hernando, J.; Sebastián, R.M. 2019: Wavelength-Tunable Light-Induced Polymerization of Cyanoacrylates Using Photogenerated Amines. Macromolecules 52(6): 2329-2339
Wang, T.; Chu, C. 2007: Wavelength-Tunable Microring Resonator on Lithium Niobate. IEEE Photonics Technology Letters 19(23): 1904-1906
Gong, P.; Jiang, X.; Zhou, J.; Xie, L. 2021: Wavelength-Tunable OTDR for DWDM-PON Based on Optimized Wavelet Denoising. IEEE Photonics Technology Letters 33(24): 1347-1350
Zhang, L.; Cao, Q.; Zuo, Y.; Xue, C.; Cheng, B.; Wang, Q. 2011: Wavelength-Tunable Si-Based in Ga as Resonant Cavity Enhanced Photodetectors Using Sol-Gel Wafer Bonding Technology. IEEE Photonics Technology Letters 23(13): 881-883
Fukuchi, Y.; Hirata, K.; Ikeoka, H. 2014: Wavelength-Tunable and Bandwidth-Variable Ultra-Flat Optical Frequency Comb Block Generation from a Bismuth-Based Actively Mode-Locked Fiber Laser. IEEE Photonics Journal 6(1): 1-9
Lin, W.; Tseng, C.; Chao, K.; Mai, S.; Lin, S.; Wu, M. 2010: Wavelength-Tunable in Ga As-Capped Quantum-Dot Infrared Photodetectors. IEEE Photonics Technology Letters 22(4): 227-229
Chichkov, N.B.; Yadav, A.; Zherebtsov, E.; Wang, M.; Kipshidze, G.; Belenky, G.; Shterengas, L.; Rafailov, E.U. 2018: Wavelength-Tunable, Ga Sb-Based, Cascaded Type-i Quantum-Well Laser Emitting over a Range of 300 nm. IEEE Photonics Technology Letters 30(22): 1941-1943
Vazquez-Zuniga, L.A.; Jeong, Y. 2013: Wavelength-Tunable, Passively Mode-Locked Erbium-Doped Fiber Master-Oscillator Incorporating a Semiconductor Saturable Absorber Mirror. Journal of the Optical Society of Korea 17(2): 117-129
Zhou, H.; Deng, R.; Li, Y.; Yao, B.; Ding, Z.; Wang, Q.; Han, Y.; Wu, T.; Liu, L. 2014: Wavelength-Tuned Light Emission via Modifying the Band Edge Symmetry: Doped Sn O2 as an Example. The Journal of Physical Chemistry C 118(12): 6365-6371
Oh, S.H.; Shin, J.; Park, Y.; Park, S.; Kim, K.S.; Kim, S.; Sung, H.; Baek, Y.; Oh, K. 2008: Wavelength-Tuning of Hybrid Integrated Multiwavelength Lasers Using a Heater. IEEE Photonics Technology Letters 20(6): 422-424
Huang, H.; Yu, Z.; Zhou, D.; Li, S.; Fu, L.; Wu, Y.; Gu, C.; Liao, Q.; Fu, H. 2019: Wavelength-Turnable Organic Microring Laser Arrays from Thermally Activated Delayed Fluorescent Emitters. ACS Photonics 6(12): 3208-3214
Clemens, P.; Heise, G.; Marz, R.; Michel, H.; Reichelt, A.; Schneider, H. 1995: Wavelength-adaptable optical phased array in Si O/sub 2/-Si. IEEE Photonics Technology Letters 7(9): 1040-1041
Kellermann, P.O.; Finger, N.; Schrenk, W.; Gornik, E.; Winterhoff, R.; Schweizer, H.; Scholz, F. 1999: Wavelength-adjustable surface-emitting single-mode laser diodes with contradirectional surface-mode coupling. Applied Physics Letters 75(24): 3748-3750
Kranendonk, L.A.; Huber, R.; Fujimoto, J.G.; Sanders, S.T. 2007: Wavelength-agile H2O absorption spectrometer for thermometry of general combustion gases. Proceedings of the Combustion Institute 31(1): 783-790
Kranendonk, L.A.; Walewski, J.W.; Kim, T.; Sanders, S.T. 2005: Wavelength-agile sensor applied for HCCi engine measurements. Proceedings of the Combustion Institute 30(1): 1619-1627
Chen, J.; Gao, S. 2015: Wavelength-assignable 1310/1550 nm wavelength conversion using completely phase-matched two-pump four-wave mixing in a silicon waveguide. Optics Communications 356: 389-394
Raz, O.; Rotman, R.; Tur, M. 2005: Wavelength-controlled photonic true time delay for wide-band applications. IEEE Photonics Technology Letters 17(5): 1076-1078
Shaffer, L. 1958: Wavelength-dependent (selective) processes for the utilization of solar energy. Solar Energy 2(3-4): 21-26
Liaw, J.; Tsai, S.; Lin, H.; Yen, T.; Chen, B. 2012: Wavelength-dependent Faraday–Tyndall effect on laser-induced microbubble in gold colloid. Journal of Quantitative Spectroscopy and Radiative Transfer 113(17): 2234-2242
Carlsten, S G.; Strauss, M. A.; Lupton, R. H.; Meyers, J. E.; Miyazaki, S. 2018: Wavelength-dependent PSFs and their impact on weak lensing measurements. Monthly Notices of the Royal Astronomical Society 479(2): 1491-1504
Liu, B.; Wang, B.; Wang, Y.; Wang, L. 2009: Wavelength-dependent Photodissociation Dynamics of Benzaldehyde. Chinese Journal of Chemical Physics 22(6): 587-591
Di Donato, E.; Tommasini, M.; Fustella, G.; Brambilla, L.; Castiglioni, C.; Zerbi, G.; Simpson, C.D.; Müllen, K.; Negri, F. 2004: Wavelength-dependent Raman activity of D2h symmetry polycyclic aromatic hydrocarbons in the D-band and acoustic phonon regions. Chemical Physics 301(1): 81-93
Grabcev, B.; Todireanu, S.; Cioca, V. 1985: Wavelength-dependent absolute reflectivities and effective mosaic widths of single crystal neutron monochromators. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 228(2-3): 465-481
Manka, C.K.; Nikitin, S.; Lunsford, R.; Kunapareddy, P.; Grun, J. 2010: Wavelength-dependent amplitude of Teflon Raman lines. Journal of Raman Spectroscopy 42(4): 685-690
Lei, Y.; Gu, L.; Zheng, L.; Yang, X.; He, W.; Gao, Y.; Zheng, Z. 2017: Wavelength-dependent charge carrier dynamics: the case of Ag2S/organic thin films heterojunction solar cells. Electrochimica Acta 252: 33-40
Li, H.; Hu, T.; Du, N.; Zhang, R.; Liu, J.; Hou, W. 2016: Wavelength-dependent differences in photocatalytic performance between Bi OBr nanosheets with dominant exposed (0 0 1) and (0 1 0) facets. Applied Catalysis B: Environmental 187: 342-349
Chang, W.; Sue, C.; Hou, H.; Hsuan, M. 1999: Wavelength-dependent diffusion conditions of nickel-indiffused Li Nb O3 optical waveguides. Microwave and Optical Technology Letters 22(5): 358-361
Rätsep, M.; Pajusalu, M.; Freiberg, A. 2009: Wavelength-dependent electron–phonon coupling in impurity glasses. Chemical Physics Letters 479(1-3): 140-143
Eastwood, D.; Hendrick, M.S.; Miller, M.H. 1982: Wavelength-dependent enhancement of DCP metal lines by saline matrices. Spectrochimica Acta Part B: Atomic Spectroscopy 37(4): 293-302
Saunders, D.; Kirby, J. 1994: Wavelength-dependent fading of artists' pigments. Studies in Conservation 39(Suppl 2): 190-194
Früchtl, M.; Janssen, C.; Taraborrelli, D.; Gromov, S.; Röckmann, T. 2015: Wavelength-dependent isotope fractionation in visible light O3 photolysis and atmospheric implications. Geophysical Research Letters 42(20): 8711-8718
Stevenson, A.W.; Barnea, Z. 1983: Wavelength-dependent measurements of extinction in an extended-face crystal of zinc selenide. Acta Crystallographica Section A Foundations of Crystallography 39(4): 538-547
Dragan, A.I.; Mali, B.; Geddes, C.D. 2013: Wavelength-dependent metal-enhanced fluorescence using synchronous spectral analysis. Chemical Physics Letters 556: 168-172
Zhou, S.; Guo, S.; Liu, W.; Ding, R.; Sun, H.; Chen, J.; Qian, Z.; Feng, H. 2021: Wavelength-dependent multicolor photochromism and fluorescence switching based on an AIE-active skeleton by regulating the conjugation of the photoactive unit. Journal of Materials Chemistry C 9(26): 8249-8257
Tsubota, T.; Uesugi, A.; Sugano, K.; Isono, Y. 2020: Wavelength-dependent near-infrared microbolometer for short-wavelength infrared light with gold nanowire grating optical absorber. Microsystem Technologies 27(3): 997-1005
Khanzadeh, M.; Dehghanipour, M.; Darehkordi, A.; Rahmani, F. 2018: Wavelength-dependent nonlinear optical properties of 8-(4-methoxyphenyl)-6-oxo-3-p-tolyl-6H-pyrido[1,2-b][1,2,4]triazine-7,9-dicarbonitrile. Canadian Journal of Physics 96(12): 1288-1294
Vogelgesang, R.; Liang, J.J.; Wagner, V.; Lugauer, H.J.; Geurts, J.; Waag, A.; Landwehr, G. 1999: Wavelength-dependent optical degradation of green II–Vi laser diodes. Applied Physics Letters 75(10): 1351-1353
Chen, H.; Lee, M.; Chen, C. 2016: Wavelength-dependent optical transition mechanisms for light-harvesting of perovskite MAPb I3 solar cells using first-principles calculations. Journal of Materials Chemistry C 4(23): 5248-5254
Shizuka, H.; Ishii, Y.; Hoshino, M.; Morita, T. 1976: Wavelength-dependent photochemical behavior in 9,10-dimethylenebianthracene. The Journal of Physical Chemistry 80(1): 30-32
Hoshino, M.; Yasufuku, K.; Seki, H.; Yamazaki, H. 1985: Wavelength-dependent photochemical reaction of methylrhodium(III) octaethylporphyrin. Studies on methyl-rhodium (CH3-Rh) bond cleavage. The Journal of Physical Chemistry 89(14): 3080-3085
Baumann, N.; Sung, M.; Ullman, E.F. 1968: Wavelength-dependent photochemical reactions of lactones. Journal of the American Chemical Society 90(15): 4157-4158
Ullman, E.F.; Babad, E.; Sung, M. 1969: Wavelength-dependent photochemistry of .alpha.,.beta.-unsaturated carboxylate anions. Journal of the American Chemical Society 91(21): 5792-5796
Osisioma, O.; Chakraborty, M.; Ault, B.S.; Gudmundsdottir, A.D. 2018: Wavelength-dependent photochemistry of 2-azidovinylbenzene and 2-phenyl-2H-azirine. Journal of Molecular Structure 1172: 94-101
Blangé, J J.; Urbain, X.; Rudolph, H.; Dijkerman, H A.; Beijerinck, H C W.; Heideman, H G M. 1996: Wavelength-dependent photodissociation as a probe for vibrational energy distributions in molecular ions. Journal of Physics B: Atomic, Molecular and Optical Physics 29(13): 2763-2773
Shi, M.; Yang, W.; Wu, S. 2007: Wavelength-dependent photolyses of 2,5-dichloro-3,6-bis(dialkylamino)-[1,4]benzoquinone. Journal of Photochemistry and Photobiology A: Chemistry 185(2-3): 140-143
Dietzek, B.; Fey, S.; Matute, R.A.; González, L.; Schmitt, M.; Popp, J.; Yartsev, A.; Hermann, G. 2011: Wavelength-dependent photoproduct formation of phycocyanobilin in solution – Indications for competing reaction pathways. Chemical Physics Letters 515(1-3): 163-169
Schmidt, R.; Drews, W.; Brauer, H.D. 1982: Wavelength-dependent photostable or photoreversible photochromic system. The Journal of Physical Chemistry 86(25): 4909-4913
Emeline, A.; Kuzmin, G.; Serpone, N. 2008: Wavelength-dependent photostimulated adsorption of molecular O2 and H2 on second generation titania photocatalysts: the case of the visible-light-active N-doped Ti O2 system. Chemical Physics Letters 454(4-6): 279-283
Weng, S.; Pei, L.; Liu, C.; Wang, J.; Li, J.; Ning, T. 2016: Wavelength-dependent polarization absorber based on multi-cladding fiber with gold coating. Optics-Laser Technology 86: 26-32
Malik, S.S. 1976: Wavelength-dependent reflectivities of a few neutron monochromators. Journal of Applied Crystallography 9(4): 273-278
Xu, Q.; Ma, Y.; Stiopkin, I.V.; Fleming, G.R. 2002: Wavelength-dependent resonant homodyne and heterodyne transient grating spectroscopy with a diffractive optics method: Solvent effect on the third-order signal. The Journal of Chemical Physics 116(21): 9333-9340
Schäfer, B.; Buck, M.; Hess, P. 1985: Wavelength-dependent resonant surface heating and desorption with IR lasers: a new spectroscopic tool. Infrared Physics 25(1-2): 245-250
Georgiadis, R.; Richmond, G.L. 1991: Wavelength-dependent second harmonic generation from silver(111) in solution. The Journal of Physical Chemistry 95(7): 2895-2899
Anzueto-Sánchez, G.; Castrellon-Uribe, J.; Martínez-Ríos, A. 2011: Wavelength-dependent selective loss for wavelength switching operation of an erbium-doped fiber ring laser. Optical Review 18(4): 301-304
Popovici, M. 1971: Wavelength-dependent susceptibility of iron in the critical region. Physics Letters A 34(6): 319-320
Kuroda, K.; Tanaka, K.; Yoshikuni, Y. 2018: Wavelength-dependent transient gain saturation in an erbium-doped fiber amplifier under different pump conditions. Microwave and Optical Technology Letters 60(11): 2820-2824
Kuroda, K.; Shibata, K.; Yoshikuni, Y. 2015: Wavelength-dependent transition time of gain saturation in an erbium-doped fiber amplifier. Applied Physics B 120(1): 111-115
Schweitzer, D.; Zuclich, J.; Maki, A. 1973: Wavelength-dependent triplet state populating mechanisms of naphthalene in heavy-atom hosts. Chemical Physics Letters 18(1): 24-26
Strobl, M.; Betz, B.; Harti, R.P.; Hilger, A.; Kardjilov, N.; Manke, I.; Gruenzweig, C. 2016: Wavelength-dispersive dark-field contrast: micrometre structure resolution in neutron imaging with gratings. Journal of Applied Crystallography 49(2): 569-573
Sánchez, E.; Carreras, A.; Guereschi, A.; Martino, R.; Castellano, G. 2011: Wavelength-dispersive spectral analysis and quantification of monazites by electron-probe microanalysis. Spectrochimica Acta Part B: Atomic Spectroscopy 66(1): 67-73
Roudas, I.; Antoniades, N.; Richards, D.; Wagner, R.; Jackel, J.; Habiby, S.; Stern, T.; Elrefaie, A. 2000: Wavelength-domain simulation of multiwavelength optical networks. IEEE Journal of Selected Topics in Quantum Electronics 6(2): 348-362
Kellermann, P.; Finger, N.; Gornik, E.; Ost, M.; Scholz, F.; Schweizer, H. 2000: Wavelength-graded horizontal cavity laser array with postgrowth adjustment of wavelength. IEEE Photonics Technology Letters 12(9): 1138-1140
Berry, M V. 1982: Wavelength-independent fringe spacing in rainbows from falling neutrons. Journal of Physics A: Mathematical and General 15(8): L385-L388
Yashiki, K.; Kudo, K.; Morimoto, T.; Sudo, S.; Muroya, Y.; Tamanuki, T.; Ishizaka, M.; Hosoda, T.; Furushima, Y.; Hatakeyama, H.; Yokoyama, Y.; Mori, K.; Sasaki, T.; Yamaguchi, M. 2002: Wavelength-independent operation of EA-modulator integrated wavelengthselectable microarray light sources. IEEE Photonics Technology Letters 14(2): 137-139
Trushin, S.; Kosma, K.; Fuß, W.; Schmid, W. 2008: Wavelength-independent ultrafast dynamics and coherent oscillation of a metal–carbon stretch vibration in photodissociation of Cr(CO)6 in the region of 270–345nm. Chemical Physics 347(1-3): 309-323
Treharne, R W.; Trolander, H W. 1965: Wavelength-independent, direct-reading radiometer. Journal of Scientific Instruments 42(9): 699-701
Lee, K.; Chuang, W.; Lee, W.; Lin, K. 1996: Wavelength-insensitive optical switch: Another application of the twist nematic liquid crystal display panel. Microwave and Optical Technology Letters 13(6): 351-354
Tai, K.; Chang, B.; Chen, J.; Mao, C.; Ducellier, T.; Xie, J.; Mao, L.; Wheeldon, J. 2001: Wavelength-interleaving bidirectional circulators. IEEE Photonics Technology Letters 13(4): 320-322
Huang, M.; Feng, K.; Chen, J.; Tse-Yu Lin; Chia-Chien Wei; Sien Chi, 2006: Wavelength-interleaving bidirectional transmission system using unidirectional amplification in a 5/spl times/100 km recirculating loop. IEEE Photonics Technology Letters 18(12): 1326-1328
Ferrari, A.; Ghislotti, G.; Balsamo, S.; Troiano, G. 2003: Wavelength-locking and coherence-collapsed operation of multimode semiconductor lasers induced by external injection. IEEE Photonics Technology Letters 15(8): 1041-1043
Hashiguchi, K.; Lisak, D.; Cygan, A.; Ciuryło, R.; Abe, H. 2016: Wavelength-meter controlled cavity ring-down spectroscopy: high-sensitivity detection of trace moisture in N 2 at sub-ppb levels. Sensors and Actuators A: Physical 241: 152-160
Lipari, F.; Plankey, F.W. 1978: Wavelength-modulated continuum source atomic fluorescence spectrometer. Analytical Chemistry 50(3): 385-391
Berkovic, G.; Rotter, S.; Shafir, E.; Scandale, W.; Todesco, E. 2002: Wavelength-modulated fiber optic sensor for high precision displacement measurement. Review of Scientific Instruments 73(10): 3687-3691
Welkowsky, M.; Braunstein, R. 1971: Wavelength-modulated reflectivity of the noble metals. Solid State Communications 9(23): 2139-2142
Bendorius, R.A.; Kavaliauskas, J. 1994: Wavelength-modulated reflectivity study of energy-gap grading in Alx Ga1−x as layers. Physica Status Solidi (a) 143(2): K115-K118
Mandanirina, N.; Botha, J.; Wagener, M. 2016: Wavelength-modulated spectroscopy of the sub-bandgap response of solar cell devices. Physica B: Condensed Matter 480: 88-90
Lue, J.T. 1979: Wavelength-modulating spectrometer implemented with photovoltaic photodiodes. Journal of Physics E: Scientific Instruments 12(9): 833-836
Kim, Y.; Seo, J.; Bae, W.; Moon, Y.H.; Ito, Y.; Sugita, N. 2021: Wavelength-modulation Fourier interferometry with elimination of DC phase error. Precision Engineering 68: 97-105
Goldenstein, C.S.; Spearrin, R.M.; Jeffries, J.B.; Hanson, R.K. 2014: Wavelength-modulation spectroscopy near 2.5 μm for H2O and temperature in high-pressure and -temperature gases. Applied Physics B 116(3): 705-716
Chao, X.; Jeffries, J.B.; Hanson, R.K. 2011: Wavelength-modulation-spectroscopy for real-time, in situ NO detection in combustion gases with a 5.2 μm quantum-cascade laser. Applied Physics B 106(4): 987-997
Minasian, R.A.; Alameh, K.E.; Fourikis, N. 1995: Wavelength-multiplexed photonic beam-former architecture for microwave phased arrays. Microwave and Optical Technology Letters 10(2): 84-88
Nomayo, M.; Thanner, R.; Grotheer, H. 2000: Wavelength-resolved REMPi mass spectrometry in a hostile industrial environment, limitations and promises of the method. Applied Physics B 71(5): 681-687
Dunbar, R.; Turner, D.W. 1981: Wavelength-resolved fluorescence lifetimes of gas-phase ions: CO2+ and CS2+. Chemical Physics 57(3): 377-383
He, J.; Ma, C.; Cheung, A. 1998: Wavelength-resolved laser-induced fluorescence study of the A 2Π–X 2Σ transition of Zr N: vibrational constants of A 2Π and X 2Σ states. Chemical Physics Letters 295(5-6): 535-539
Book, L.D.; Scherer, N.F. 1999: Wavelength-resolved stimulated photon echoes: Direct observation of ultrafast intramolecular vibrational contributions to electronic dephasing. The Journal of Chemical Physics 111(3): 792-795
Banerjee, D.; Mukherjee, B. 2000: Wavelength-routed optical networks: linear formulation, resource budgeting tradeoffs, and a reconfiguration study. IEEE/ACM Transactions on Networking 8(5): 598-607
Yuan, X.; Ahluwalia, B.; Tao, S.; Cheong, W.; Zhang, L.; Lin, J.; Bu, J.; Burge, R. 2006: Wavelength-scalable micro-fabricated wedge for generation of optical vortex beam in optical manipulation. Applied Physics B 86(2): 209-213
Lee, H.J.; Park, S.; Park, H.S.; Hong, K.S.; Lee, D.; Kim, H.; Cha, M.; Moon, H.S. 2016: Wavelength-scanning calibration of detection efficiency of single photon detectors by direct comparison with a photodiode. Metrologia 53(2): 908-917
Fok, M.; Lee, K.; Shu, C. 2005: Wavelength-selectable injection-locking scheme for multiwavelength 10-GHz optical pulse generation. IEEE Photonics Technology Letters 17(9): 1953-1955
Hatakeyama, H.; Naniwae, K.; Kudo, K.; Suzuki, N.; Sudo, S.; Ae, S.; Muroya, Y.; Yashiki, K.; Satoh, K.; Morimoto, T.; Mori, K.; Sasaki, T. 2003: Wavelength-selectable microarray light sources for S-, C-, and L-band WDM systems. IEEE Photonics Technology Letters 15(7): 903-905
Hatakeyama, H.; Kudo, K.; Yokoyama, Y.; Naniwae, K.; Sasaki, T. 2002: Wavelength-selectable microarray light sources for wide-band DWDM applications. IEEE Journal of Selected Topics in Quantum Electronics 8(6): 1341-1348
Gösselsberger, C.; Bacak, M.; Gerstmayr, T.; Gumpenberger, S.; Hawlik, A.; Hinterleitner, B.; Jericha, E.; Nowak, S.; Welzl, A.; Badurek, G. 2013: Wavelength-selected Neutron Pulses Formed by a Spatial Magnetic Neutron Spin Resonator. Physics Procedia 42: 106-115
Matthus, C.D.; Bauer, A.J.; Frey, L.; Erlbacher, T. 2019: Wavelength-selective 4H-Si C UV-sensor array. Materials Science in Semiconductor Processing 90: 205-211
Lan, T.; Hu, Y.; Wu, G.; Tao, X.; Chen, W. 2015: Wavelength-selective and rebound-able bimorph photoactuator driven by a dynamic mass transport process. Journal of Materials Chemistry C 3(9): 1888-1892
Piloto, A.M.; Costa, S.P.; Gonçalves, M.S.T. 2014: Wavelength-selective cleavage of o-nitrobenzyl and polyheteroaromatic benzyl protecting groups. Tetrahedron 70(3): 650-657
Bochet, C. G. 2000: Wavelength-selective cleavage of photolabile protecting groups. Tetrahedron Letters 41(33): 6341-6346
Ura, S.; Nishida, R.; Suhara, T.; Nishihara, H. 2001: Wavelength-selective coupling among three vertically integrated optical waveguides by grating couplers. IEEE Photonics Technology Letters 13(2): 133-135
Ura, S.; Nishida, R.; Suhara, T.; Nishihara, H. 2001: Wavelength-selective coupling between vertically integrated thin-film waveguides via supermode by a pair of grating couplers. IEEE Photonics Technology Letters 13(7): 678-680
Mingyang Chen, .; Yongkang Zhang, .; Rongjin Yu, . 2009: Wavelength-selective coupling of dual-core photonic crystal fiber and its application. Chinese Optics Letters 7(5): 390-392
Maeda, H.; Sumida, M.; Tada, Y.; Imai, T. 2001: Wavelength-selective cross connect featuring wide flat passband and high cascadability for WDM optical networks. IEEE Photonics Technology Letters 13(11): 1230-1232
Chattopadhyay, A.; Rawat, S. S. 2007: Wavelength-selective fluorescence in ion channels formed by gramicidin a in membranes. Journal of Chemical Sciences 119(2): 135-140
Ueda, A.; Albridge, R.; Barnes, A.; Burger, A.; Collins, W.; Davidson, J.; George, M.; Hu, Z.; Languell, M.; McKinley, J.; Tribble, J.; Tolk, N. 1995: Wavelength-selective laser ablation of diamond using hydrogen-impurity vibration modes. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 100(2-3): 427-430
Lu, P.; Ahn, D.; Yunis, R.; Delafresnaye, L.; Corrigan, N.; Boyer, C.; Barner-Kowollik, C.; Page, Z.A. 2021: Wavelength-selective light-matter interactions in polymer science. Matter 4(7): 2172-2229
Khriachtchev, L.; Novikov, S.; Lahtinen, J.; Räsänen, M. 2004: Wavelength-selective optical waveguiding of photoluminescence in a thermally annealed Si/Si O2superlattice. Journal of Physics: Condensed Matter 16(18): 3219-3228
Schaniel, D.; Bendeif, E.; Woike, T.; Böttcher, H.; Pillet, S. 2018: Wavelength-selective photoisomerisation of nitric oxide and nitrite in a rhodium complex. CrystEngComm 20(44): 7100-7108
Kanter, G.; Kumar, P.; Parameswaran, K.; Fejer, M. 2001: Wavelength-selective pulsed all-optical switching based on cascaded second-order nonlinearity in a periodically poled lithium-niobate waveguide. IEEE Photonics Technology Letters 13(4): 341-343
Haley, L.V.; Koningstein, J.A. 1985: Wavelength-selective pulsed-laser-induced fluorescence from cis- and trans-.beta.-carotene in the solid state. The Journal of Physical Chemistry 89(8): 1354-1357
Sihua Li, .; Zhujun Wan, .; Jing Xu, .; Shaolong Zhong, .; Yaming Wu, . 2011: Wavelength-selective switch based on a high f ill-factor micromirror array. Chinese Optics Letters 9(9): 090601-90603
Yegnanarayanan, S.; Jalali, B. 2000: Wavelength-selective true time delay for optical control of phased-array antenna. IEEE Photonics Technology Letters 12(8): 1049-1051
Focsa, C.; Mihesan, C.; Ziskind, M.; Chazallon, B.; Therssen, E.; Desgroux, P.; Destombes, J L. 2006: Wavelength-selective vibrationally excited photodesorption with tunable IR sources. Journal of Physics: Condensed Matter 18(30): S1357-S1387
Lastusaari, M.; Bos, A.J.J.; Dorenbos, P.; Laamanen, T.; Malkamäki, M.; Rodrigues, L.C.V.; Hölsä, J. 2015: Wavelength-sensitive energy storage in Sr3Mg Si2O8:Eu2+,Dy3+. Journal of Thermal Analysis and Calorimetry 121(1): 29-35
Zhang, Z.; Su, F.; Zhang, M.; Ye, P. 2006: Wavelength-shift detection system based on matching-FBG with enhanced temperature sensitivity. Optoelectronics Letters 2(2): 139-141
Dong, Y.; Zhao, S.; Hou, R.; Deng, B. 2015: Wavelength-shift-free regenerator for 10 Gb/s RZ system on satellite by two-stage offset filter using HNLF and SOA. Optical and Quantum Electronics 47(7): 2339-2346
Lei Xu; Wang, T.; Matsuda, O.; Cvijetic, M.; Glesk, I.; Prucnal, P. 2005: Wavelength-shift-keying (WSK) encoded pulses for optical labeling applications. IEEE Photonics Technology Letters 17(12): 2775-2777
Maheshwari, M.; Tjin, S.C.; Yang, Y.; Asundi, A. 2017: Wavelength-shifted chirped FBGs for temperature compensated strain measurement. Sensors and Actuators A: Physical 265: 231-235
Watanabe, K.; Yamazaki, T.; Sugimoto, D.; Yamazaki, A.; Uritani, A.; Iguchi, T.; Fukuda, K.; Ishidu, S.; Yanagida, T.; Fujimoto, Y. 2015: Wavelength-shifting fiber signal readout from Transparent RUbber Shee T (TRUST) type Li Ca Al F6 neutron scintillator. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 784: 260-263
Alexandrov, K.; Barbarino, G.; Bernardini, P.; Brigida, M.; Campana, D.; Candela, A.; Caruso, R.; Cassese, F.; Ceres, A.; Aquino, B.; Cataldo, G.; Mitri, I.; Credico, A.; Favuzzi, C.; Fusco, P.; Gargano, F.; Giglietto, N.; Giordano, F.; Grillo, A.; Guarino, F.; Gustavino, C.; Lamanna, E.; Lauro, A.; Leone, A.; Loparco, F.; Mancarella, G.; Martello, D.; Mazziotta, M.; Mikheyev, S.; Mongelli, M.; Osteria, G.; Palladino, V.; Passeggio, G.; Perchiazzi, M.; Pontoniere, G.; Rainò, A.; Rocco, R.; Romanucci, E.; Rubizzo, U.; Sacchetti, A.; Scapparone, E.; Spinelli, P.; Tikhomirov, V.; Vaccina, A.; Vanzanella, E.; Weber, M. 2001: Wavelength-shifting fibers for calorimetric measurements in a long base line neutrino oscillation experiment. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 457(3): 447-453
Nakamura, T.; Katagiri, M.; Toh, K.; Sakasai, K.; Ebine, M.; Birumachi, A.; Soyama, K. 2009: Wavelength-shifting-fibre-based neutron image detector with a fibre-optic taper to increase the spatial resolution. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 604(1-2): 158-160
Zhang, Z.; Liang, P.; Sang, M.; Ye, Z. 2011: Wavelength-spacing switchable multiwavelength fiber lasers based on nonlinear polarization rotation with cascaded birefringence fibers. Journal of Modern Optics 58(1): 82-86
Chen, D.; Ou, H.; Fu, H.; Qin, S.; Gao, S. 2007: Wavelength-spacing tunable multi-wavelength erbium-doped fiber laser incorporating a semiconductor optical amplifier. Laser Physics Letters 4(4): 287-290
Chen, D.; Sun, B. 2011: Wavelength-spacing tunable multi-wavelength fiber optical parametric oscillator based on multiple four-wave mixing. Laser Physics 21(5): 919-923
Sun, B.; Hu, K.; Chen, D.; Wei, Y.; Chen, H.; Gao, S. 2012: Wavelength-spacing tunable multiwavelength fiber optical parametric oscillator. Microwave and Optical Technology Letters 54(10): 2405-2408
Doty, M.F.; Cole, B.E.; King, B.T.; Sherwin, M.S. 2004: Wavelength-specific laser-activated switches for improved contrast ratio in generation of short THz pulses. Review of Scientific Instruments 75(9): 2921-2925
Delfino, M.; Hodul, D. 1992: Wavelength-specific pyrometry as a temperature measurement tool. IEEE Transactions on Electron Devices 39(1): 89-95
Shiratori, A.; Obara, M. 1997: Wavelength-stable, narrow-spectral-width oscillation of an Al Ga in P diode laser coupled to a Ba Ti O 3 :Co stimulated photorefractive backscattering phase conjugator. Applied Physics B: Lasers and Optics 65(3): 329-333
Silva, A.; Lindsay, I.D. 2012: Wavelength-swept optical parametric oscillator for broadband mid-infrared spectroscopy. Applied Physics B 107(3): 685-689
He, W.; Zhu, L.; Dong, M.; Lou, X.; Luo, F. 2017: Wavelength-switchable C-band erbium-doped fibre laser incorporating all-fibre Fabry–Perot interferometer fabricated by chemical etching. Journal of Modern Optics 65(7): 818-824
Liu, H.; Tam, H.; Chung, W.; Wai, P.; Sugimoto, N. 2005: Wavelength-switchable La-codoped bismuth-based erbium-doped fiber ring laser. IEEE Photonics Technology Letters 17(5): 986-988
Han, Y. 2011: Wavelength-switchable Multiwavelength Erbium-doped Fiber Laser Based on a D-shaped Fiber with a Photoresist Thin-film Overlay. Journal of the Korean Physical Society 58(4(1): 890-893
Yong Wook Lee; Byoungho Lee, 2003: Wavelength-switchable erbium-doped fiber ring laser using spectral polarization-dependent loss element. IEEE Photonics Technology Letters 15(6): 795-797
Medendorp, Z.; Valiunas, J.; Das, G. 2007: Wavelength-switchable fiber laser. Microwave and Optical Technology Letters 49(6): 1231-1233
Qi, Y.; Kang, Z.; Sun, J.; Ma, L.; Jin, W.; Lian, Y.; Jian, S. 2016: Wavelength-switchable fiber laser based on few-mode fiber filter with core-offset structure. Optics-Laser Technology 81: 26-32
Delgado-Pinar, M.; Mora, J.; Diez, A.; Cruz, J.; Andres, M. 2005: Wavelength-switchable fiber laser using acoustic waves. IEEE Photonics Technology Letters 17(3): 552-554
Park, S.M.; Kim, G.H.; Lee, H.D.; Kim, C. 2019: Wavelength-switchable ns-pulsed active mode locking fiber laser for photoacoustic signal generation. Optics-Laser Technology 115: 441-446
Wang, G. 2017: Wavelength-switchable passively mode-locked fiber laser with mechanically exfoliated molybdenum ditelluride on side-polished fiber. Optics-Laser Technology 96: 307-312
Liegeois, F.; Hernandez, Y.; Kinet, D.; Peigne, G.; Giannone, D. 2005: Wavelength-switchable single-frequency erbium-doped fiber ring laser. IEEE Photonics Technology Letters 17(12): 2544-2546
Zhao, D.; Kam Tai Chan; Liu, Y.; Zhang, L.; Bennion, I. 2001: Wavelength-switched optical pulse generation in a fiber ring laser with a Fabry-Perot semiconductor modulator and a sampled fiber Bragg grating. IEEE Photonics Technology Letters 13(3): 191-193
Kyoungsik Yu; Shin, J.; Namkyoo Park, 2000: Wavelength-time spreading optical CDMA system using wavelength multiplexers and mirrored fiber delay lines. IEEE Photonics Technology Letters 12(9): 1278-1280
Jung, D.; Shin, S.; Woo, H.; Chung, Y. 2000: Wavelength-tracking technique for spectrum-sliced WDM passive optical network. IEEE Photonics Technology Letters 12(3): 338-340
Zhao, C.; Ma, N.; Yuan, S.; Yang, S.; Kai, G.; Zhao, Q.; Xiaoyi, D. 2003: Wavelength-tunable actively mode-locked fiber-ring laser using an F-P LD as a modulator and a tunable comb filter. Microwave and Optical Technology Letters 36(4): 318-320
Glance, B. 1996: Wavelength-tunable add/drop optical filter. IEEE Photonics Technology Letters 8(2): 245-247
Wang, Z.; Chinlon Lin; Chow, K.; Yuen-Ching Ku; Bjarklev, A. 2005: Wavelength-tunable dispersion-imbalanced loop mirror based on dispersion-flattened high-nonlinearity photonic crystal fiber and its application in suppression of the incoherent interferometric crosstalk. IEEE Photonics Technology Letters 17(9): 1911-1913
Hu, M.; Wang, C.; Serebryannikov, E E.; Song, Y.; Li, Y.; Chai, L.; Dukel'skii, K V.; Khokhlov, A V.; Shevandin, V S.; Kondrat'ev, Y. N.; Zheltikov, A M. 2006: Wavelength-tunable hollow-beam generation by a photonic-crystal fiber. Laser Physics Letters 3(6): 306-309
Lin, W.; Lin, S.; Tseng, C.; Kung, S.; Chao, K.; Mai, S.; Wu, M. 2011: Wavelength-tunable in Ga As-capped quantum-dot infrared photodetectors for multi-color detection. Infrared Physics-Technology 54(3): 220-223
Zhang, T.; Liang, R.; Dong, L.; Wang, J.; Xu, J.; Pan, C. 2015: Wavelength-tunable infrared light emitting diode based on ordered Zn O nanowire/Si1–x Ge x alloy heterojunction. Nano Research 8(8): 2676-2685
Pei Yang, P.Y.; Shilin Xiao, S.X.; Hanlin Feng, H.F.; Meihua Bi, M.B.; Jie Shi, J.S.; Zhao Zhou, Z.Z. 2013: Wavelength-tunable light sources based on a self-seeding RSOA. Chinese Optics Letters 11(4): 040602-40604
Tao, L.; Lan, K.; Zhong, C.; Zhou, Y.; Wang, P.; Fan, F.; Shen, Z.; Xie, H. 2020: Wavelength-tunable linearly polarized luminescence film constructed using a highly efficient luminescent liquid crystal with stimuli-responsive property. Journal of Materials Chemistry C 8(46): 16561-16568
Sharma, S.; Kumar, J. 2015: Wavelength-tunable mid-infrared femtosecond Raman soliton generation in birefringent ZBLAN photonic crystal fiber. Journal of Modern Optics 63(5): 484-494
Zhaoyang Hu; Fuying Li; Zhenwu Pan; Wei Tan, 2000: Wavelength-tunable narrow-linewidth semiconductor fiber-ring laser. IEEE Photonics Technology Letters 12(8): 977-979
Lee, Y.; Shu, C. 1997: Wavelength-tunable nearly transform-limited pulses generated by self-injection seeding of a laser diode at an arbitrary repetition rate. IEEE Photonics Technology Letters 9(5): 590-592
Ghafouri-Shiraz, H.; Lew, S.H. 1997: Wavelength-tunable optical filters with phase-shifted DFB structures. Microwave and Optical Technology Letters 16(2): 119-122
Kobrinski, H.; Cheung, K. 1989: Wavelength-tunable optical filters: applications and technologies. IEEE Communications Magazine 27(10): 53-63
Massey, G.; Johnson, J. 1976: Wavelength-tunable optical mixing experiments between 208 nm and 259 nm. IEEE Journal of Quantum Electronics 12(11): 721-727
Peng, P.C.; Chen, J.F.; Lu, H.H.; Lin, Y.T. 2011: Wavelength-tunable optical pulse generation from a fiber ring laser with a reflective semiconductor optical amplifier. Laser Physics 21(3): 509-511
Zou, C.; Wang, T.; Yan, Z.; Huang, Q.; AlAraimi, M.; Rozhin, A.; Mou, C. 2018: Wavelength-tunable passively mode-locked Erbium-doped fiber laser based on carbon nanotube and a 45° tilted fiber grating. Optics Communications 406: 151-157
Yang, C.; Feng, G.; Wang, S.; Dai, J.; Zhang, Y.; Zhou, S. 2017: Wavelength-tunable photoluminescence of Zn Se quantum dot micelles synthesized by femtosecond laser ablation in microfluidics. Chemical Physics Letters 684: 409-413
Fu, E.; Foley, J.; Yager, P. 2003: Wavelength-tunable surface plasmon resonance microscope. Review of Scientific Instruments 74(6): 3182-3184
Riza, N.; Khan, S. 2005: Wavelength-tunable variable fiber-optic attenuator using liquid-Crystal-mirror hybrid controls. IEEE Photonics Technology Letters 17(3): 621-623
Sun, Y.; Xu, J.; Gao, S.; Lee, C.; Xia, H.; Wang, Y.; You, Z.; Tu, C. 2015: Wavelength-tunable, passively Q-switched Yb3+:Ca3Y2(BO3)4 solid state laser using Mo S2 saturable absorber. Materials Letters 160: 268-270
Vazquez-Zuniga, L.A.; Kim, H.; Jeong, Y. 2013: Wavelength-tunable, picosecond fiber master-oscillator power amplifier source based on an erbium-doped large-core fiber. Optics Communications 294: 255-259
Wood, S.M.; Castles, F.; Elston, S.J.; Morris, S.M. 2016: Wavelength-tuneable laser emission from stretchable chiral nematic liquid crystal gels via in situ photopolymerization. RSC Advances 6(38): 31919-31924
Abd-Rahman, M.K.; Selvakennedy, S.; Poopalan, P.; Ahmad, H. 2001: Wavelength-tuning analysis of erbium-doped fiber-ring laser. Microwave and Optical Technology Letters 29(4): 213-215
Bissessur, H.; Caraglia, C.; Thedrez, B.; Rainsant, J.; Riant, I. 1999: Wavelength-versatile external fiber grating lasers for 2.5-Gb/s WDM networks. IEEE Photonics Technology Letters 11(10): 1304-1306
Brown, C.; Seely, J.; Kania, D.; Hammel, B.; Back, C.; Lee, R.; Barshalom, A.; Behring, W. 1994: Wavelengths and Energy Levels for the Zn i Isoelectronic Sequence Sn20+ Through U62+. Atomic Data and Nuclear Data Tables 58(2): 203-217
Norlén, G. 1973: Wavelengths and Energy Levels of Ar i and Ar Ii based on new Interferometric Measurements in the Region 3 400-9 800 Å. Physica Scripta 8(6): 249-268
Brown, C.M.; Feldman, U.; Seely, J.F.; Korendyke, C.M.; Hara, H. 2008: Wavelengths and Intensities of Spectral Lines in the 171–211 and 245–291 Å Ranges from Five Solar Regions Recorded by the Extreme‐Ultraviolet Imaging Spectrometer (EIS) on Hinode. The Astrophysical Journal Supplement Series 176(2): 511-535
Fawcett, B. 1975: Wavelengths and classifications of emission lines due to 2s22pn−2s2pn + 1 and 2s2pn−2pn + 1 transitions, Z ≤ 28. Atomic Data and Nuclear Data Tables 16(2): 135-164
Wang, M.; Arnesen, A.; Heijkenskjöld, F.; Hallin, R. 1997: Wavelengths and energy levels of Co IX. Physica Scripta 56(6): 609-610
Wang, M.; Arnesen, A.; Dunne, P.; Hallin, R.; Heijkenskjöld, F.; O'Reilly, F. 1997: Wavelengths and energy levels of Fe VIIi. Physica Scripta T 73: 77-78
Larsson, M O.; Gonzalez, A M.; Hallin, R.; Heijkenskjöld, F.; Nyström, B.; O'Sullivan, G.; Weber, C.; Wännström, A. 1996: Wavelengths and energy levels of Xe V and Xe Vi obtained by collision-based spectroscopy. Physica Scripta 53(3): 317-324
Larsson, M O.; Gonzalez, A M.; Hallin, R.; Heijkenskjöld, F.; Hutton, R.; Langereis, A.; Nyström, B.; O'Sullivan, G.; Wännström, A. 1995: Wavelengths and energy levels of Xe VIi and Xe VIIi obtained by collision-based spectroscopy. Physica Scripta 51(1): 69-75
Wang, M.; O'Reilly, F.; Dunne, P.; Arnesen, A.; Heijkenskjöld, F.; Hallin, R.; O'Sullivan, G. 1997: Wavelengths and energy levels of potassium-like Mn VIi. Journal of Physics B: Atomic, Molecular and Optical Physics 30(19): 4175-4181
Wang, M.; Faulkner, R.; O'Reilly, F.; Manrique, J.; Arnesen, A.; Duffy, G.; Dunne, P.; Hallin, R.; Heijkenskjöld, F.; O'Sullivan, G. 1999: Wavelengths and energy levels of potassium-like Ni X. Journal of Physics B: Atomic, Molecular and Optical Physics 32(22): 5299-5309
Berry, H.G.; DeSerio, R.; Livingston, A.E. 1980: Wavelengths and fine structure of2s−2ptransitions in two- and three-electron ions. Physical Review A 22(3): 998-1011
Dannhäuser, G.; Wiech, G. 1971: Wavelengths and halfwidths of the Mζ X-ray lines of elements 38Sr to 47Ag. Physics Letters A 35(3): 208-209
Palmeri, P.; Quinet, P.; Biémont, .; Träbert, E. 2007: Wavelengths and transition probabilities for n=4→n′=4 transitions in heavy Cu-like ions (70⩽Z⩽92). Atomic Data and Nuclear Data Tables 93(3): 537-547
Palmeri, P.; Quinet, P.; Biémont, .; Träbert, E. 2007: Wavelengths and transition probabilities in heavy Ge-like ions (70⩽Z⩽92). Atomic Data and Nuclear Data Tables 93(3): 355-374
Vainshtein, L.; Safronova, U. 1978: Wavelengths and transition probabilities of satellites to resonance lines of H- and He-like ions. Atomic Data and Nuclear Data Tables 21(1): 49-68
Courbage, M.; Yasmineh, S. 2001: Wavelengths distribution of chaotic travelling waves in some cellular automata. Physica D: Nonlinear Phenomena 150(1-2): 63-83
Bernard, P.; Izatt, J.R.; Mathieu, P. 1981: Wavelengths for new CH3OH laser lines. International Journal of Infrared and Millimeter Waves 2(1): 65-70
Gu, M.F. 2005: Wavelengths of 2l→3l′ Transitions in L‐Shell Ions of Iron and Nickel: a Combined Configuration Interaction and Many‐Body Perturbation Theory Approach. The Astrophysical Journal Supplement Series 156(1): 105-110
Ellis, J.W. 1952: Wavelengths of Damped Waves. American Journal of Physics 20(1): 55-56
Nave, G. 2011: Wavelengths of Fe ii lines for studies of time variation of the fine-structure constant. Monthly Notices of the Royal Astronomical Society 420(2): 1570-1574
Kucera, T.A.; Feldman, U.; Widing, K.G.; Curdt, W. 2000: Wavelengths of Forbidden Transitions Arising from Levels Within the Fe+192s22p3Ground Configuration. The Astrophysical Journal 538(1): 424-427
Crisp, R S. 1991: Wavelengths of emission lines in the M spectrum of49in metal in the range 12-265 AA. Journal of Physics: Condensed Matter 3(8): 927-932
Feldman, U.; Behring, W.; Cohen, L. 1972: Wavelengths of solar lines in the 50?380? region and their identifications. Space Science Reviews 13(4-6): 608-609
Miller, A.G. 1976: Wavelengths of some x-ray lines of neptunium, plutonium, and americium. Physical Review A 13(6): 2153-2156
Ivanova, E.P. 2015: Wavelengths of the 4d–4p, 0–1 transitions of X-ray lasers in Ni-like ions with Z ≤ 79. Optics and Spectroscopy 118(4): 506-512
Li, Y.; Nilsen, J.; Dunn, J.; Osterheld, A.L.; Ryabtsev, A.; Churilov, S. 1998: Wavelengths of the Ni-like4d1S0–4p1P1x-ray laser line. Physical Review A 58(4): R2668-R2671
Jönsson, P.; Litzén, U.; Zethson, T.; Kling, R.; Launay, F. 1998: Wavelengths, Isotope Shifts, and Oscillator Strengths in B ii at 1362 and 1624 Å. The Astrophysical Journal 499(1): L107-L109
Xu, M.; Jiang, G.; Deng, B.; Bian, G. 2014: Wavelengths, transition probabilities, and oscillator strengths for M-shell transitions in Co-, Ni-, Cu-, Zn-, Ga-, Ge-, and Se-like au ions. Atomic Data and Nuclear Data Tables 100(6): 1357-1398
Xu, M.; Yan, A.; Wu, S.; Hu, F.; Li, X. 2017: Wavelengths, transition probabilities, and oscillator strengths for M-shell transitions in tungsten ions with partially filled 3p subshell. Canadian Journal of Physics 95(3): 283-290
Hu, F.; Jiang, G.; Hong, W.; Hao, L.H. 2008: Wavelengths, transition probabilities, line strengths and oscillator strengths for the Kα and Kβ X-ray transitions in Ni XIX through Ni XXVIi. The European Physical Journal D 49(3): 293-296
Mansour, A.M.; Steiger, C.; Nagel, C.; Schatzschneider, U. 2019: Wavelength‐Dependent Control of the CO Release Kinetics of Manganese(I) Tricarbonyl Photo CORMs with Benzimidazole Coligands. European Journal of Inorganic Chemistry 42: 4572-4581
Northrop, J.A. 1958: Wavelength‐Shifter Efficiencies for Noble Gas Scintillators. Review of Scientific Instruments 29(5): 437-438
Lee, J.; Ha, J.W. 2020: Wavelength‐dependent Scattering Properties of Single Gold Nanorods Under Three‐Color Laser Total Internal Reflection Scattering Microscopy. Bulletin of the Korean Chemical Society 41(7): 672-674
Hamilton, J.C.; Anderson, R.J. 1989: Wavelength‐dependent studies of optical second‐harmonic generation from Fe–18Cr–3Mo(110) in ultrahigh vacuum. Journal of Vacuum Science-Technology A: Vacuum, Surfaces, and Films 7(1): 100-102
Kirkland, J.P.; Kovantsev, V.E.; Dozier, C.M.; Gilfrich, J.V.; Gibson, W.M.; Xiao, Q.; Umezawa, K. 1995: Wavelength‐dispersive x‐ray fluorescence detector. Review of Scientific Instruments 66(2): 1410-1412
Kamieniecki, E.; Lagowski, J.; Gatos, H.C. 1980: Wavelength‐modulated photocapacitance spectroscopy. Journal of Applied Physics 51(3): 1863-1865
Blazey, K.W. 1974: Wavelength‐modulated spectra of some Fe3+ oxides. Journal of Applied Physics 45(5): 2273-2280
Levin, K.H.; Tang, C.L. 1978: Wavelength‐modulation Raman spectroscopy. Applied Physics Letters 33(9): 817-819
Copeland, J.A.; Campbell, J.C.; Dentai, A.G.; Miller, S.E. 1981: Wavelength‐multiplexed ANDgate: a building block for monolithic optically coupled circuits. Applied Physics Letters 39(3): 197-199
Hager, S.L.; Willard, J.E. 1974: Wavelength‐selective bleaching (``burning holes'') in the optical spectra of trapped electrons in organic glasses. The Journal of Chemical Physics 61(8): 3244-3246
Paraszczak, J.; Willard, J.E. 1979: Wavelength‐selective bleaching of the optical spectra of trapped electrons in organic glasses. Ii. The Journal of Chemical Physics 70(12): 5823-5833
Carraresi, L.; De Souza, E.A.; Miller, D.A.B.; Jan, W.Y.; Cunningham, J.E. 1994: Wavelength‐selective detector based on a quantum well in a standing wave. Applied Physics Letters 64(2): 134-136
Pezeshki, B.; Agahi, F.; Kash, J.A.; Welser, J.J.; Wang, W. 1996: Wavelength‐selective waveguide photodetectors in silicon‐on‐insulator. Applied Physics Letters 68(6): 741-743
Holmes, R.J.; Hocking, G.C.; Forbes, L.K.; Baillard, N.Y. 2012: Waveless subcritical flow past symmetric bottom topography. European Journal of Applied Mathematics 24(2): 213-230
Rodriguez, N.; Palma, W.; Yanez, E.; Rubio, J. 2013: Wavelet Additive Forecasting Model to Support the Fisheries Industry. Advanced Science Letters 19(12): 3679-3682
Luo, D.S.; Fan, Z. 2013: Wavelet Algorithm in Rotating Machinery Fault Feature Extraction. Advanced Materials Research 823: 451-455
Meyer, Y.; Xu, H. 1997: Wavelet Analysis and Chirps. Applied and Computational Harmonic Analysis 4(4): 366-379
Jameson, L.; Miyama, T. 2000: Wavelet Analysis and Ocean Modeling: a Dynamically Adaptive Numerical Method "WOFD-AHO". Monthly Weather Review 128(5): 1536-1549
McCoy, E.J.; Walden, A.T. 1996: Wavelet Analysis and Synthesis of Stationary Long-Memory Processes. Journal of Computational and Graphical Statistics 5(1): 26-56
Kozlov, I.; Zlotnick, Z. 2003: Wavelet Analysis for Acoustic Phased Array. Mechanical Systems and Signal Processing 17(2): 443-456
Grabowska, J.; Palacz, M.; Krawczuk, M.; Ostachowicz, W.; Trendafilova, I.; Manoach, E.; Cartmell, M.P. 2007: Wavelet Analysis for Damage Identification in Composite Structures. Damage Assessment of Structures VII: 253-258
Li, Z.; Wang, Q.; Wu, Y. 2001: Wavelet Analysis for Random Processes. Modern Physics Letters A 16(09): 583-588
Giaccone, S.J.; Bossio, G.R.; GarcÍA, G.O.; Solsona, J.A. 2011: Wavelet Analysis for Stator Fault Detection in Induction Machines. International Journal of Wavelets, Multiresolution and Information Processing 09(03): 361-374
Spyronasios, A D.; Dimopoulos, M G.; Hatzopoulos, A A. 2011: Wavelet Analysis for the Detection of Parametric and Catastrophic Faults in Mixed-Signal Circuits. IEEE Transactions on Instrumentation and Measurement 60(6): 2025-2038
Drzewiecki, A.; Sczaniecki, P. 2005: Wavelet Analysis in EPR Spectroscopy. Acta Physica Polonica A 108(1): 73-79
Malik, G.; Kumar, T.; Agarwal, G. 2017: Wavelet Analysis in Video Watermarking through Wavelet Transform Scheme. International Journal of Computer Applications 161(4): 29-36
Barbashina, N.S.; Kokoulin, R.P.; Kompaniets, K.G.; Petrukhin, A.A.; Timashkov, D.A.; Yashin, I.I.; Mannocchi, G.; Trinchero, G.; Saavedra, O. 2005: Wavelet Analysis of Atmospheric Muon Data. International Journal of Modern Physics A 20(29): 6944-6946
Wiebe, A.; Sturman, A.; McGowan, H. 2011: Wavelet Analysis of Atmospheric Turbulence over a Coral Reef Flat. Journal of Atmospheric and Oceanic Technology 28(5): 698-708
Wang, J.; Zheng, M.; Yu, W. 2014: Wavelet Analysis of Change Points in Nonparametric Hazard Rate Models Under Random Censorship. Communications in Statistics - Theory and Methods 43(9): 1956-1978
Lyashenko, V.V.; Babker, A.M.; Lyubchenko, V.A. 2017: Wavelet Analysis of Cytological Preparations Image in Different Color Systems. OALib 04(07): 1-9
Ahn, S.H.; Seong, K.; Kim, J.W.; Nam, K.W. 2007: Wavelet Analysis of Elastic Wave for Wall Thinned Inconel 690 Tube. Key Engineering Materials: 2281-2284
Dang, L. 2020: Wavelet Analysis of Electrochemical Noise Measurements During Atmospheric Corrosion of Mild Steel in the Simulated Marine Environment. International Journal of Electrochemical Science: 4326-4337
Hübscher, M.; Vogt, L.; Banzer, W. 2007: Wavelet Analysis of Laser-Induced Blood Flow Changes. Medical Acupuncture 19(1): 13-16
Berk, N.F.; Majkrzak, C.F. 2003: Wavelet Analysis of Neutron Reflectivity. Langmuir 19(19): 7811-7817
Mabrouk, A.B. 2008: Wavelet Analysis of Nonlinear Self-Similar Distributions with Oscillating Singularity. International Journal of Wavelets, Multiresolution and Information Processing 06(03): 447-457
Li, H.S.; Li, Z.Y. 2012: Wavelet Analysis of PK2600 Measurement Data on Core-Rod. Advanced Materials Research 571: 551-554
Akumu, A.O.; Masai, H.; Adachi, F.; Ozaki, R.; Ihori, H.; Fujii, M.; Arii, K. 2003: Wavelet Analysis of Partial Discharge Acoustic Signals in a Model Transformer. Japanese Journal of Applied Physics 42(Part 1, No. 8): 5347-5352
Biswal, P.C.; Mohanty, P.K. 2006: Wavelet Analysis of Price and Volatility Spillovers in Stock Markets: the Case of India and the US. Journal of Quantitative Economics 4(2): 1-13
He, J.; Yu, B. 2005: Wavelet Analysis of Quaternion-Valued Time-Series. International Journal of Wavelets, Multiresolution and Information Processing 03(02): 233-246
Hendrickson, B.; Widenhorn, R.; Blouke, M.; Heidtmann, D.; Bodegom, E. 2020: Wavelet Analysis of RTS Noise in CMOS Image Sensors Irradiated with High-Energy Photons. IEEE Transactions on Nuclear Science 67(7): 1732-1737
Zhang, Z. 2021: Wavelet Analysis of Red Noise and its Application in Climate Diagnosis. Mathematical Problems in Engineering 2021: 1-14
Lin, F.; Chen, J.; Li, M. 2004: Wavelet Analysis of Rotor-Tip Disturbances in an Axial-Flow Compressor. Journal of Propulsion and Power 20(2): 319-334
Du, B.; Kobayashi, S. 2001: Wavelet Analysis of Scintillation Discharge Current on DC Tracking Resistance of Gamma-ray Irradiated Polyethylene and Polycarbonate. RADIOISOTOPES 50(1): 1-11
Elsanabary, M.H.; Gan, T.Y. 2014: Wavelet Analysis of Seasonal Rainfall Variability of the Upper Blue Nile Basin, its Teleconnection to Global Sea Surface Temperature, and its Forecasting by an Artificial Neural Network. Monthly Weather Review 142(5): 1771-1791
Sullivan, C.; Martinez, M.; Garner, S. 2006: Wavelet Analysis of Sodium Iodide Spectra. IEEE Transactions on Nuclear Science 53(5): 2916-2922
Aschwanden, M.J.; Kliem, B.; Schwarz, U.; Kurths, J.; Dennis, B.R.; Schwartz, R.A. 1998: Wavelet Analysis of Solar Flare Hard X‐Rays. The Astrophysical Journal 505(2): 941-956
Frick, P.; Baliunas, S.L.; Galyagin, D.; Sokoloff, D.; Soon, W. 1997: Wavelet Analysis of Stellar Chromospheric Activity Variations. The Astrophysical Journal 483(1): 426-434
Naldi, G.; Venini, P. 1997: Wavelet Analysis of Structures: Statics, Dynamics and Damage Identification. Meccanica 32(3): 223-230
Lim, Y.; Lye, L.M. 2021: Wavelet Analysis of Tide-affected Low Streamflows Series. Journal of Data Science 2(2): 149-163
Zhou, Q.; Yang, X.; Mao, Y.J.; Deng, H.J. 2012: Wavelet Analysis of Transient Signals of Structural Responses to Impulsive Loads. Advanced Materials Research 452-453: 1522-1526
Christopoulou, E.B.; Skodras, A.; Georgakilas, A.A.; Koutchmy, S. 2003: Wavelet Analysis of Umbral Oscillations. The Astrophysical Journal 591(1): 416-431
Boudet, J.; Jacob, M.C.; Caro, J.; Jondeau, E.; Li, B. 2018: Wavelet Analysis of a Blade Tip-Leakage Flow. AIAA Journal 56(8): 3332-3336
Franco, H. 1996: Wavelet Analysis of a Nonlinear Oscillator Transient During Synchronization. International Journal of Bifurcation and Chaos 06(12b): 2557-2570
Biswal, P.C.; Kamaiah, B.; Panigrahi, P.K. 2004: Wavelet Analysis of the Bombay Stock Exchange Index. Journal of Quantitative Economics 2(1): 133-146
Satoh, N.; Sakakibara, S. 2002: Wavelet Analysis of the Longitudinal Shubnikov–de Haas Oscillation in Antimony. Japanese Journal of Applied Physics 41(Part 1, No. 2A): 680-684
Khrennikov, A.Y.; Kosyak, A.V.; Shelkovich, V.M. 2012: Wavelet Analysis on Adeles and Pseudo-Differential Operators. Journal of Fourier Analysis and Applications 18(6): 1215-1264
Yu, B.; Huang, C.; Liu, Z.; Zhang, B.; Qin, F. 2010: Wavelet Analysis on NH3-N Pollution Index Changes of the Middle-Upper Minjiang River during Last 6 Years. Procedia Environmental Sciences 2: 9-14
Hu, Z.G.; Chen, L.P.; Zhang, Y.L.; Song, S.Y.; Guo, W.F. 2011: Wavelet Analysis on Nonstationary Random Road Irregularities. Advanced Materials Research 346: 689-695
Zhang, C.Y. 2011: Wavelet Analysis on Suspended Sediment Concentration Variations over a Tidal Cycle in the Lianyungang Nearshore Area, China. Advanced Materials Research 356-360: 857-861
Osipov, V.A. 2016: Wavelet Analysis on Symbolic Sequences and Two-Fold de Bruijn Sequences. Journal of Statistical Physics 164(1): 142-165
Liu, Y.; Yin, C.Q. 2012: Wavelet Analysis on Vibration Signal during Unsteady Process. Advanced Materials Research 424-425: 27-30
Liu, H.X.; Liao, Y.; Li, L.; Wang, C.M. 2014: Wavelet Analysis on the Distribution of the Streambed Forms. Advanced Materials Research 1030-1032: 965-968
Holschneider, M. 1995: Wavelet Analysis over Abelian Groups. Applied and Computational Harmonic Analysis 2(1): 52-60
Khan, M.; Qiao, F.; Yu, L. 2017: Wavelet Analysis to Characterize the Dependency of Vehicular Emissions on Road Roughness. Transportation Research Record: Journal of the Transportation Research Board 2641(1): 111-125
Strazza, A.; Verdini, F.; Mengarelli, A.; Cardarelli, S.; Tigrini, A.; Fioretti, S.; Di Nardo, F. 2019: Wavelet Analysis-Based Reconstruction for s EMG Signal Denoising. IFMBE Proceedings: 245-252
De Moortel, I.; Munday, S.; Hood, A. 2004: Wavelet Analysis: the effect of varying basic wavelet parameters. Solar Physics 222(2): 203-228
Bruskin, L.G.; Mase, A.; Tokuzawa, T.; Oyama, N.; Itakura, A.; Tamano, T. 1997: Wavelet Application for Reflectometry of Plasma Density Profiles. Japanese Journal of Applied Physics 36(Part 2, No. 5B): L632-L633
Rakowski, W.J. 2017: Wavelet Approach to Damage Detection of Mechanical Systems and Structures. Procedia Engineering 182: 594-601
Zeiser, A. 2011: Wavelet Approximation in Weighted Sobolev Spaces of Mixed Order with Applications to the Electronic Schrödinger Equation. Constructive Approximation 35(3): 293-322
Skopina, M. 2000: Wavelet Approximation of Periodic Functions. Journal of Approximation Theory 104(2): 302-329
Bechler, P. 2008: Wavelet Approximation of Distributions with Bounded Variation Derivatives. Journal of Fourier Analysis and Applications 15(1): 31-57
Lal, S.; Kumar, M. 2016: Wavelet Approximations using (Λ⋅C1) Matrix-Cesaro Summability Method of Jacobi Series. International Journal of Computer Applications 147(14): 1-8
Mukherjee, P.; Wang, Y. 2003: Wavelet Band Powers of the Primordial Power Spectrum from Cosmic Microwave Background Data. The Astrophysical Journal 593(1): 38-47
Sengupta, M.; J.K, M. 2013: Wavelet Based Authentication/Secret Transmission Through Image Resizing (WASTIR). Signal-Image Processing: An International Journal 4(2): 59-68
Ullah, H.; Amir, M.; Ul Haq, I.; Khan, S.U.; Rahim, M.K.A.; Khan, K.B. 2017: Wavelet Based De-noising Using Logarithmic Shrinkage Function. Wireless Personal Communications 98(1): 1473-1488
Gong, T.T.; Wang, J.S. 2020: Wavelet Based Deep Recursive Pyramid Convolution Residual Network for Single Image Rain Removal. IEEE Access 8: 195870-195882
Gupta, V.; Kumar, A. 2012: Wavelet Based Dynamic Spectrum Sensing for Cognitive Radio under Noisy Environment. Procedia Engineering 38: 3228-3234
Chaubey, Y.P.; Doosti, H.; Rao, B.L.P. 2008: Wavelet Based Estimation of the Derivatives of a Density for a Negatively Associated Process. Journal of Statistical Theory and Practice 2(3): 453-463
A. Jadhav, P.; Biradar, P. 2014: Wavelet Based Features for Defect Detection in Fabric using Genetic Algorithm. IOSR Journal of Computer Engineering 16(3): 116-120
Germán-Salló, Z.; Gligor, A.; Grif, H.S. 2014: Wavelet Based HRV Analysis. International Conference on Advancements of Medicine and Health Care through Technology; 5th – 7th June Cluj-Napoca, Romania: 229-232
Brahm, A.; Tymoshchuk, M.; Wichmann, F.; Merx, S.; Notni, G.; Tünnermann, A. 2014: Wavelet Based Identification of Substances in Terahertz Tomography Measurements. Journal of Infrared, Millimeter, and Terahertz Waves 35(11): 974-986
Takezawa, T.; Yamashita, Y. 2021: Wavelet Based Image Coding via Image Component Prediction Using Neural Networks. International Journal of Machine Learning and Computing 11(2): 137-142
Abitha Memala, W.; Rajini, V. 2017: Wavelet Based Induction Motor Fault Diagnosis Using Zero Sequence Current. Journal of Computational and Theoretical Nanoscience 14(1): 411-420
Chen, M.; Sun, Y.; Wu, X. 2012: Wavelet Based MBPE Technique for Fast RCS Computation of DNG Metamaterials. Procedia Engineering 29: 2961-2965
Zhi, K.Y.; Faust, O.; Yu, W. 2014: Wavelet Based Machine Learning Techniques for Electrocardiogram Signal Analysis. Journal of Medical Imaging and Health Informatics 4(5): 737-742
Kulkarni, S.; Raut, R.; Dakhole, P. 2015: Wavelet Based Modern Finger Knuckle Authentication. Procedia Computer Science 70: 649-657
Kim, W.G.; Seo, Y.S.; Jung, H.W.; Lee, S.H.; Oh, W.G. 2006: Wavelet Based Multi-Bit Fingerprinting Against Geometric Distortions. Advanced Nondestructive Evaluation I: 1301-1305
Arrault, J.; Arnéodo, A.; Davis, A.; Marshak, A. 1997: Wavelet Based Multifractal Analysis of Rough Surfaces: Application to Cloud Models and Satellite Data. Physical Review Letters 79(1): 75-78
Sastry, C.S.; Das, P.C. 2006: Wavelet Based Multilevel Backprojection Algorithm for Parallel and Fan Beam Scanning Geometries. International Journal of Wavelets, Multiresolution and Information Processing 04(03): 523-545
Naveed, K.; Rehman, N.u. 2020: Wavelet Based Multivariate Signal Denoising Using Mahalanobis Distance and EDF Statistics. IEEE Transactions on Signal Processing 68: 5997-6010
Nie, X.H.; Pan, Z.M.; Zhang, W.N. 2014: Wavelet Based Noise Reduction for Magnetic Anomaly Signal Contaminated by 1/f Noise. Advanced Materials Research 889-890: 776-779
Lee, D.; Park, M.; Kim, J.; Kim, D.; Kim, D.; Lim, D. 2010: Wavelet Based Non-Local Means Filtering for Speckle Noise Reduction of SAR Images. Korean Journal of Applied Statistics 23(3): 595-607
Xu, T.; Zhu, D.L.; Tang, H.K. 2011: Wavelet Based Progressive Compression and Transmission of 3D Object. Advanced Materials Research 271-273: 383-388
Ji, H.; Shen, Z.; Xu, Y. 2011: Wavelet Based Restoration of Images with Missing or Damaged Pixels. East Asian Journal on Applied Mathematics 1(2): 108-131
Rao, S.; Singh, G. 2012: Wavelet Based Spectrum Sensing Techniques in Cognitive Radio. Procedia Engineering 38: 880-888
Wang, A.; Zhao, G. 2015: Wavelet Based Surface Decomposition with Boundary Continuity. Computer-Aided Design and Applications 12(4): 452-456
Majumdar, S.; Parthasarathy, H. 2011: Wavelet Based Transistor Parameter Estimation Using Second Order Volterra Model. Circuits, Systems, and Signal Processing 30(6): 1289-1311
Dahlke, S.; Weinreich, I. 1994: Wavelet Bases Adapted to Pseudodifferential Operators. Applied and Computational Harmonic Analysis 1(3): 267-283
Fatone, L.; Recchioni, M.C.; Zirilli, F. 2011: Wavelet Bases Made of Piecewise Polynomial Functions: Theory and Applications. Applied Mathematics 02(02): 196-216
Vedel, B. 2008: Wavelet Bases for Confinements of the Infrared Divergence. Journal of Fourier Analysis and Applications 15(1): 101-123
Ashino, R.; Mandai, T. 2003: Wavelet Bases for Microlocal Filtering and the Sampling Theorem in Lp(Rn)∗. Applicable Analysis 82(1): 1-24
Karlovich, A.Y. 2020: Wavelet Bases in Banach Function Spaces. Bulletin of the Malaysian Mathematical Sciences Society 44(3): 1669-1689
De Canditiis, D.; Vidakovic, B. 2004: Wavelet Bayesian Block Shrinkage via Mixtures of Normal-Inverse Gamma Priors. Journal of Computational and Graphical Statistics 13(2): 383-398
Xuan, Z.; Liu, H.; Li, C.; Liu, Y. 2021: Wavelet Bilateral Filter Algorithm-Based High-Frequency Ultrasound Image Analysis on Effects of Skin Scar Repair. Scientific Programming 2021: 1-7
Zhang, T.; Fan, Q. 2011: Wavelet Characterization of Dyadic Bmo Norm and its Application in Image Decomposition for Distinguishing Between Texture and Noise. International Journal of Wavelets, Multiresolution and Information Processing 09(03): 445-457
Zhang, T.; Fan, Q.; Gao, Q. 2010: Wavelet Characterization of Hardy Space H1 and its Application in Variational Image Decomposition. International Journal of Wavelets, Multiresolution and Information Processing 08(01): 71-87
Izuki, M. 2008: Wavelet Characterization of the Bergman Space on Strip Domains. Complex Analysis and Operator Theory 3(4): 867-880
Hochmuth, R. 2002: Wavelet Characterizations for Anisotropic Besov Spaces. Applied and Computational Harmonic Analysis 12(2): 179-208
McLachlan, N.; Kumar, D.K.; Becker, J. 2006: Wavelet Classification of Indoor Environmental Sound Sources. International Journal of Wavelets, Multiresolution and Information Processing 04(01): 81-96
Redinbo, G.R. 2010: Wavelet Codes for Algorithm-Based Fault Tolerance Applications. IEEE Transactions on Dependable and Secure Computing 7(3): 315-328
Nguyen, T.N.; Nguyen, T.H.; Nguyen, T.T. 2013: Wavelet Coefficient Average Value for Prediction of Motor Control Area of Human Brain Using f NIRS. IFMBE Proceedings: 270-274
Kumar, R.; Das, R.R.; Mishra, V.N.; Dwivedi, R. 2011: Wavelet Coefficient Trained Neural Network Classifier for Improvement in Qualitative Classification Performance of Oxygen-Plasma Treated Thick Film Tin Oxide Sensor Array Exposed to Different Odors/Gases. IEEE Sensors Journal 11(4): 1013-1018
Kyriazis, G.C. 1996: Wavelet Coefficients Measuring Smoothness in Hp(open face Rd). Applied and Computational Harmonic Analysis 3(2): 100-119
Kaneko, H.; Neamprem, K.; Novaprateep, B. 2012: Wavelet Collocation Method and Multilevel Augmentation Method for Hammerstein Equations. SIAM Journal on Scientific Computing 34(1): A309-A338
Heydari, M.H.; Hooshmandasl, M.R.; Maalek Ghaini, F.M.; Mohammadi, F. 2012: Wavelet Collocation Method for Solving Multiorder Fractional Differential Equations. Journal of Applied Mathematics 2012: 1-19
Shamaileh, A.; Rassem, T. H.; Ahmed, I.A.; Alalayah, K. M. 2018: Wavelet Completed Local Ternary Pattern (WCLTP) for Texture Image Classification. Advanced Science Letters 24(10): 7675-7681
Barrie, A.C.; Smith, D.L.; Elkington, S.R.; Sternovsky, Z.; Silva, D.; Giles, B.L.; Schiff, C. 2019: Wavelet Compression Performance of MMS/FPi Plasma Count Data with Plasma Environment. Earth and Space Science 6(1): 116-135
Wang, N.; Bao, J.; Lee, J.; Moeng, F.; Matsumoto, C. 2015: Wavelet Compression Technique for High-Resolution Global Model Data on an Icosahedral Grid. Journal of Atmospheric and Oceanic Technology 32(9): 1650-1667
Zhao, Y.; Zhuang, X.; Dai, Z.; Wang, H. 2011: Wavelet Compressive Sampling Signal Reconstruction Using Upside-Down Tree Structure. Mathematical Problems in Engineering 2011: 1-10
Jangal, F.; Saillant, S.; Helier, M. 2008: Wavelet Contribution to Remote Sensing of the Sea and Target Detection for a High-Frequency Surface Wave Radar. IEEE Geoscience and Remote Sensing Letters 5(3): 552-556
Qi, J.; Huesman, R. 2004: Wavelet Crosstalk Matrix and its Application to Assessment of Shift-Variant Imaging Systems. IEEE Transactions on Nuclear Science 51(1): 123-129
Ma, Y.F.; Liu, S.G. 2014: Wavelet De-Noising Algorithm Based on Open CV for Images Edge Detection. Advanced Materials Research 989-994: 3973-3976
Wu, G.W.; Wang, C.M. 2014: Wavelet De-Noising Based on Genetic Adaptive Threshold Algorithm. Advanced Materials Research 989-994: 3595-3598
Li, D.; Zhang, H.; Zhang, M. 2016: Wavelet De-Noising and Genetic Algorithm-Based Least Squares Twin SVM for Classification of Arrhythmias. Circuits, Systems, and Signal Processing 36(7): 2828-2846
A. Shaikh, W.; F. Shah, S.; M. Pandhiani, S.; A. Solangi, M. 2022: Wavelet Decomposition Impacts on Traditional Forecasting time Series Models. Computer Modeling in Engineering-Sciences 130(3): 1517-1532
Sabre, R.; Wahyuni, I. 2020: Wavelet Decomposition and Alpha Stable Fusion. Signal-Image Processing: An International Journal 11(1): 11-24
Shoshany, M.; Almog, O.; Alchanatis, V. 2009: Wavelet Decomposition for Reducing Flux Density Effects on Hyperspectral Classification. IEEE Geoscience and Remote Sensing Letters 6(1): 38-41
Le, T.N.B.; Nguyen, T.M.K. 2014: Wavelet Decomposition of Hermite-Type Splines. Vietnam Journal of Mathematics 43(1): 131-138
Tang, Y.Y.; Cui, L.; Jin, N. 2011: Wavelet Decomposition of Pseudo-Motion Image and Application to Frequency Segmentation. International Journal of Pattern Recognition and Artificial Intelligence 25(07): 1089-1112
Mayer, C. 2006: Wavelet Decomposition of Spherical Vector Fields with Respect to Sources. Journal of Fourier Analysis and Applications 12(4): 345-369
Makhmutov, V.; Raulin, J.; Giménez de Castro, C.; Kaufmann, P.; Correia, E. 2003: Wavelet Decomposition of Submillimeter Solar Radio Bursts. Solar Physics 218(1-2): 211-220
Panda, R.; Chatterji, B N. 2001: Wavelet Decomposition using Fast Recursive Generalised IIR Filters. IETE Journal of Research 47(3-4): 137-139
Dekel, S.; Leviatan, D. 2002: Wavelet Decompositions of Nonrefinable Shift Invariant Spaces. Applied and Computational Harmonic Analysis 12(2): 230-258