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List of PDF Full Texts available from EurekaMag Chapter 54224

Chapter 54224 contains a list of PDF Full Texts available from EurekaMag.





Taubert, S.; Sundholm, D.; Pichierri, F., 2009:
Magnetically induced currents in bianthraquinodimethane-stabilized Möbius and Hückel [16]annulenes

Zhou, Q.; Ristenpart, W.D.; Stroeve, P., 2012:
Magnetically induced decrease in droplet contact angle on nanostructured surfaces

Fan, J.; Wu, T.; Lee, K.Seng.; Li, X., 2013:
Magnetically induced deep brain stimulation of neuronal firing for pain relief

Giovannetti, G.; Kumar, S.; van den Brink, J.; Picozzi, S., 2009:
Magnetically induced electronic ferroelectricity in half-doped manganites

Yamauchi, K.; Picozzi, S., 2009:
Magnetically induced ferroelectricity in TbMnO(3): inverse Goodenough-Kanamori interaction

Fedorov, G.; Tselev, A.; Jiménez, D.; Latil, S.; Kalugin, N.G.; Barbara, P.; Smirnov, D.; Roche, S., 2007:
Magnetically induced field effect in carbon nanotube devices

Lévy, M.; Wilhelm, C.; Siaugue, J-Michel.; Horner, O.; Bacri, J-Claude.; Gazeau, F., 2008:
Magnetically induced hyperthermia: size-dependent heating power of γ-Fe(2)O(3) nanoparticles

Kityk, I.V.; Jakubczyk, E., 2008:
Magnetically induced nonlinear diagnostic features of fe-co-si-B metallic glasses

Yamauchi, Y.; Sawada, M.; Komatsu, M.; Sugiyama, A.; Osaka, T.; Hirota, N.; Sakka, Y.; Kuroda, K., 2007:
Magnetically induced orientation of mesochannels in mesoporous silica films at 30 tesla

Rungsawang, R.; da Silva, J.; Wu, C-Pei.; Sivaniah, E.; Ionescu, A.; Barnes, C.H.W.; Darton, N.J., 2010:
Magnetically induced pattern formation in phase separating polymer-solvent-nanoparticle mixtures

Valmikinathan, C.M.; Wang, J.; Smiriglio, S.; Golwala, N.G.; Yu, X., 2010:
Magnetically induced protein gradients on electrospun nanofibers

Luo, B.; Liu, Y.; Guo, H., 2010:
Magnetically induced simultaneous slow and fast light

Mehta, R.V.; Vaidya, S.P.; Patel, J.M.; Vora, P.M., 1987:
Magnetically induced spatial filtering effect with magnetic fluids

Chen, C-Yao.; Wu, W-L.; Miranda, Jé.A., 2011:
Magnetically induced spreading and pattern selection in thin ferrofluid drops

Abrahamsson, C.; Nordstierna, L.; Bergenholtz, J.; Altskär, A.; Nydén, M., 2014:
Magnetically induced structural anisotropy in binary colloidal gels and its effect on diffusion and pressure driven permeability

Casati, G.; Mejía-Monasterio, C.; Prosen, T., 2007:
Magnetically induced thermal rectification

Ziomber, A.; Juszczak, K.; Kaszuba-Zwoinska, J.; Machowska, A.; Zaraska, K.; Gil, K.; Thor, P., 2010:
Magnetically induced vagus nerve stimulation and feeding behavior in rats

Demidov, V.I.; Koepke, M.E.; Raitses, Y. , 2010:
Magnetically insulated baffled probe for real-time monitoring of equilibrium and fluctuating values of space potentials, electron and ion temperatures, and densities

Rumpf, K.; Granitzer, P.; Hilscher, G.; Albu, M.; Poelt, P., 2012:
Magnetically interacting low dimensional Ni-nanostructures within porous silicon

Shi, X-Lei.; Gu, J-Yang.; Han, B.; Xu, H-Yun.; Fang, L.; Ding, Y-Tao., 2010:
Magnetically labeled mesenchymal stem cells after autologous transplantation into acutely injured liver

Vyas, K.N.; Palfreyman, J.J.; Love, D.M.; Mitrelias, T.; Barnes, C.H.W., 2013:
Magnetically labelled gold and epoxy bi-functional microcarriers for suspension based bioassay technologies

Lou, M.; Jonckheere, E., 2007:
Magnetically levitated nano-robots: an application to visualization of nerve cells injuries

Bajpai, A.K.; Gupta, R., 2011:
Magnetically mediated release of ciprofloxacin from polyvinyl alcohol based superparamagnetic nanocomposites

Sun, J.; Dong, J.; Sun, D.; Guo, Z.; Gu, N., 2014:
Magnetically mediated vortexlike assembly of gold nanoshells

Szabó, Tás.; Bakandritsos, A.; Tzitzios, V.; Devlin, E.; Petridis, D.; Dékány, I., 2008:
Magnetically modified single and turbostratic stacked graphenes from tris(2,2'-bipyridyl) iron(II) ion-exchanged graphite oxide

Pospiskova, K.; Safarik, I., 2013:
Magnetically modified spent grain as a low-cost, biocompatible and smart carrier for enzyme immobilisation

Barakat, N.S., 2010:
Magnetically modulated nanosystems: a unique drug-delivery platform

IJsselmuiden, A.J.; Patterson, M.S.; van Nooijen, F.C.; Tangelder, G-Jan.; Dirksen, M.T.; Amoroso, G.; Slagboom, T.; Serruys, P.W.; Laarman, G.J.; Kiemeneij, F., 2009:
Magnetically navigated percutaneous coronary intervention in distal and/or complex lesions may improve procedural outcome and material consumption

Miller, J.S., 2011:
Magnetically ordered molecule-based materials

Samulski, E.T., 1986:
Magnetically oriented solutions

Gao, W.; Sattayasamitsathit, S.; Manesh, K.Manian.; Weihs, D.; Wang, J., 2010:
Magnetically powered flexible metal nanowire motors

Shellock, F.G.; Wilson, S.F.; Mauge, C.P., 2007:
Magnetically programmable shunt valve: MRI at 3-Tesla

Sakamoto, S.; Omagari, K.; Kita, Y.; Mochizuki, Y.; Naito, Y.; Kawata, S.; Matsuda, S.; Itano, O.; Jinno, H.; Takeuchi, H.; Yamaguchi, Y.; Kitagawa, Y.; Handa, H., 2014:
Magnetically promoted rapid immunoreactions using functionalized fluorescent magnetic beads: a proof of principle

Zhang, P.; Yu, C.; Fan, X.; Wang, X.; Ling, Z.; Wang, Z.; Qiu, J., 2015:
Magnetically recoverable Ni/C catalysts with hierarchical structure and high-stability for selective hydrogenation of nitroarenes

Sun, Y.; Liu, G.; Gu, H.; Huang, T.; Zhang, Y.; Li, H., 2010:
Magnetically recoverable SiO2-coated Fe3O4 nanoparticles: a new platform for asymmetric transfer hydrogenation of aromatic ketones in aqueous medium

Ye, M.; Zhang, Q.; Hu, Y.; Ge, J.; Lu, Z.; He, L.; Chen, Z.; Yin, Y., 2010:
Magnetically recoverable core-shell nanocomposites with enhanced photocatalytic activity

Lv, Q.; Li, G.; Cheng, Z.; Lu, H.; Gao, X., 2014:
Magnetically recoverable fluorescence chemosensor for the adsorption and selective detection of Hg2+ in water

Chen, H.Wei.; Murugadoss, A.; Hor, T.S.Andy.; Sakurai, H., 2011:
Magnetically recoverable magnetite/gold catalyst stabilized by poly(N-vinyl-2-pyrrolidone) for aerobic oxidation of alcohols

Polshettiwar, V.; Luque, R.; Fihri, A.; Zhu, H.; Bouhrara, M.; Basset, J-Marie., 2011:
Magnetically recoverable nanocatalysts

Liu, Y.; Chung, J.; Jang, Y.; Mao, S.; Kim, B.Moon.; Wang, Y.; Guo, X., 2013:
Magnetically recoverable nanoflake-shaped iron oxide/Pt heterogeneous catalysts and their excellent catalytic performance in the hydrogenation reaction

Wang, D.; Astruc, D., 2014:
Magnetically recoverable ruthenium catalysts in organic synthesis

Puddu, M.; Paunescu, D.; Stark, W.J.; Grass, R.N., 2014:
Magnetically recoverable, thermostable, hydrophobic DNA/silica encapsulates and their application as invisible oil tags

Zhang, D-Hui.; Li, H-Bin.; Li, G-Dong.; Chen, J-Sheng., 2009:
Magnetically recyclable Ag-ferrite catalysts: general synthesis and support effects in the epoxidation of styrene

Zhang, X-Bo.; Yan, J-Min.; Han, S.; Shioyama, H.; Xu, Q., 2009:
Magnetically recyclable Fe@Pt core-shell nanoparticles and their use as electrocatalysts for ammonia borane oxidation: the role of crystallinity of the core

Qasim, M.; Asghar, K.; Singh, B.Raj.; Prathapani, S.; Khan, W.; Naqvi, A.H.; Das, D., 2015:
Magnetically recyclable Ni0.5Zn0.5Fe2O4/Zn0.95Ni0.05O nano-photocatalyst: structural, optical, magnetic and photocatalytic properties

Shokouhimehr, M.; Lee, J.Eun.; Han, S.Ihn.; Hyeon, T., 2013:
Magnetically recyclable hollow nanocomposite catalysts for heterogeneous reduction of nitroarenes and Suzuki reactions

Zhang, D.; Zhou, C.; Sun, Z.; Wu, L-Zhu.; Tung, C-Ho.; Zhang, T., 2012:
Magnetically recyclable nanocatalysts (MRNCs): a versatile integration of high catalytic activity and facile recovery

Shi, L.; Liu, M.; Liu, L.; Gao, W.; Su, M.; Ge, Y.; Zhang, H.; Dong, B., 2014:
Magnetically recyclable polymer single crystal supported silver nanocatalyst

Konwarh, R.; Kalita, D.; Mahanta, C.; Mandal, M.; Karak, N., 2010:
Magnetically recyclable, antimicrobial, and catalytically enhanced polymer-assisted "green" nanosystem-immobilized Aspergillus niger amyloglucosidase

Mistlberger, Günter.; Koren, K.; Borisov, S.M.; Klimant, I., 2010:
Magnetically remote-controlled optical sensor spheres for monitoring oxygen or pH

Chorny, M.; Fishbein, I.; Alferiev, I.; Levy, R.J., 2009:
Magnetically responsive biodegradable nanoparticles enhance adenoviral gene transfer in cultured smooth muscle and endothelial cells

Fakhrullin, R.F.; Bikmullin, A.G.; Nurgaliev, D.K., 2010:
Magnetically responsive calcium carbonate microcrystals

Sousa, F.L.; Bustamante, R.; Millán, A.; Palacio, F.; Trindade, T.; Silva, N.J.O., 2013:
Magnetically responsive dry fluids

Senyuk, B.; Varney, M.C.M.; Lopez, J.A.; Wang, S.; Wu, N.; Smalyukh, I.I., 2014:
Magnetically responsive gourd-shaped colloidal particles in cholesteric liquid crystals

Szczepanowicz, K.; Warszyński, P., 2016:
Magnetically responsive liquid core polyelectrolyte nanocapsules

Teshima, T.; Onoe, H.; Aonuma, H.; Kuribayashi-Shigetomi, K.; Kamiya, K.; Tonooka, T.; Kanuka, H.; Takeuchi, S., 2015:
Magnetically responsive microflaps reveal cell membrane boundaries from multiple angles

McGill, S.L.; Cuylear, C.L.; Adolphi, N.L.; Osiński, M.; Smyth, H.D.C., 2009:
Magnetically responsive nanoparticles for drug delivery applications using low magnetic field strengths

Johnson, B.; Toland, B.; Chokshi, R.; Mochalin, V.; Koutzaki, S.; Polyak, B., 2010:
Magnetically responsive paclitaxel-loaded biodegradable nanoparticles for treatment of vascular disease: preparation, characterization and in vitro evaluation of anti-proliferative potential

Du, Y.; Wang, Y.; He, D.; Feng, B.; Ju, C.; Zhao, H.; Fu, M., 2010:
Magnetically responsive phase-change microspheres with large magnetization using ferrite nanoparticles

Hu, Y.; He, L.; Yin, Y., 2011:
Magnetically responsive photonic nanochains

Lam, S.; Blanco, E.; Smoukov, S.K.; Velikov, K.P.; Velev, O.D., 2011:
Magnetically responsive pickering foams

Esman, N.; Haviv, A.; Lellouche, J-Paul., 2011:
Magnetically responsive polypyrrole nanotubes using Ce(III)-stabilized maghemite nanoparticles

Hayashi, K.; Nakamura, M.; Miki, H.; Ozaki, S.; Abe, M.; Matsumoto, T.; Sakamoto, W.; Yogo, T.; Ishimura, K., 2015:
Magnetically responsive smart nanoparticles for cancer treatment with a combination of magnetic hyperthermia and remote-control drug release

Safarik, I.; Maderova, Z.; Pospiskova, K.; Baldikova, E.; Horska, K.; Safarikova, M., 2015:
Magnetically responsive yeast cells: methods of preparation and applications

Butoescu, N.; Seemayer, C.A.; Palmer, G.; Guerne, P-André.; Gabay, C.; Doelker, E.; Jordan, O., 2010:
Magnetically retainable microparticles for drug delivery to the joint: efficacy studies in an antigen-induced arthritis model in mice

Venugopalan, S.; Ariga, P.; Aggarwal, P.; Viswanath, A., 2014:
Magnetically retained silicone facial prosthesis

Baig, R.B.Nasir.; Varma, R.S., 2012:
Magnetically retrievable catalysts for organic synthesis

Chi, Y.; Yuan, Q.; Li, Y.; Zhao, L.; Li, N.; Li, X.; Yan, W., 2015:
Magnetically separable Fe3O4@SiO2@TiO2-Ag microspheres with well-designed nanostructure and enhanced photocatalytic activity

Liu, J.; Peng, X.; Sun, W.; Zhao, Y.; Xia, C., 2008:
Magnetically separable Pd catalyst for carbonylative Sonogashira coupling reactions for the synthesis of alpha,beta-alkynyl ketones

Kwon, M.Serk.; Park, I.Soo.; Jang, J.Suk.; Lee, J.Sung.; Park, J., 2007:
Magnetically separable Pd catalyst for highly selective epoxide hydrogenolysis under mild conditions

Hu, L.; Mei, J-Yang.; Chen, Q-Wang.; Zhang, P.; Yan, N., 2012:
Magnetically separable Prussian blue analogue Mn₃[Co(CN)₆]₂·nH₂O porous nanocubes as excellent absorbents for heavy metal ions

Woo, H.; Lee, K.; Park, S.; Park, K.Hyun., 2014:
Magnetically separable and recyclable Fe3O4-supported Ag nanocatalysts for reduction of nitro compounds and selective hydration of nitriles to amides in water

Ling, Y.; Long, M.; Hu, P.; Chen, Y.; Huang, J., 2014:
Magnetically separable core-shell structural γ-Fe2O3@Cu/Al-MCM-41 nanocomposite and its performance in heterogeneous Fenton catalysis

Shylesh, S.; Schünemann, V.; Thiel, W.R., 2010:
Magnetically separable nanocatalysts: bridges between homogeneous and heterogeneous catalysis

Zhang, Z.; Zhang, F.; Zhu, Q.; Zhao, W.; Ma, B.; Ding, Y., 2011:
Magnetically separable polyoxometalate catalyst for the oxidation of dibenzothiophene with H2O2

Frasca, G.; Du, V.; Bacri, J-C.; Gazeau, F.; Gay, C.; Wilhelm, C., 2015:
Magnetically shaped cell aggregates: from granular to contractile materials

Stacey, T.E.; Borg, C.K.H.; Zavalij, P.J.; Rodriguez, E.E., 2015:
Magnetically stabilized Fe8(μ4-S)6S8 clusters in Ba6Fe25S27

Dumin, Y.V., 2013:
Magnetically stimulated diffusion of Rydberg gases

Peng, R.; Zhang, W.; Ran, Q.; Liang, C.; Jing, L.; Ye, S.; Xian, Y., 2014:
Magnetically switchable bioelectrocatalytic system based on ferrocene grafted iron oxide nanoparticles

Chorny, M.; Fishbein, I.; Adamo, R.F.; Forbes, S.P.; Folchman-Wagner, Zë.; Alferiev, I.S., 2012:
Magnetically targeted delivery of therapeutic agents to injured blood vessels for prevention of in-stent restenosis

David, A.E.; Cole, A.J.; Yang, V.C., 2012:
Magnetically targeted nanoparticles for brain tumor therapy: what does the future hold?

Ma, Y-Hwa.; Wu, S-Yun.; Wu, T.; Chang, Y-Jhy.; Hua, M-Yi.; Chen, J-Ping., 2009:
Magnetically targeted thrombolysis with recombinant tissue plasminogen activator bound to polyacrylic acid-coated nanoparticles

Flexman, J.A.; Cross, D.J.; Lewellen, B.L.; Miyoshi, S.; Kim, Y.; Minoshima, S., 2008:
Magnetically targeted viral envelopes: a PET investigation of initial biodistribution

Hodenius, M.; Hieronymus, T.; Zenke, M.; Becker, C.; Elling, L.; Bornemann, Jörg.; Wong, J.E.; Richtering, W.; Himmelreich, U.; De Cuyper, M., 2012:
Magnetically triggered clustering of biotinylated iron oxide nanoparticles in the presence of streptavidinylated enzymes

Yoo, D.; Jeong, H.; Noh, S-Hyun.; Lee, J-Hyun.; Cheon, J., 2014:
Magnetically triggered dual functional nanoparticles for resistance-free apoptotic hyperthermia

Hoare, T.; Timko, B.P.; Santamaria, J.; Goya, G.F.; Irusta, S.; Lau, S.; Stefanescu, C.F.; Lin, D.; Langer, R.; Kohane, D.S., 2011:
Magnetically triggered nanocomposite membranes: a versatile platform for triggered drug release

Carregal-Romero, S.; Guardia, P.; Yu, X.; Hartmann, R.; Pellegrino, T.; Parak, W.J., 2014:
Magnetically triggered release of molecular cargo from iron oxide nanoparticle loaded microcapsules

Brue, D.A.; Hutson, J.M., 2012:
Magnetically tunable Feshbach resonances in ultracold Li-Yb mixtures

Mitsumata, T.; Honda, A.; Kanazawa, H.; Kawai, M., 2013:
Magnetically tunable elasticity for magnetic hydrogels consisting of carrageenan and carbonyl iron particles

Zhang, F.; Kang, L.; Zhao, Q.; Zhou, J.; Zhao, X.; Lippens, D., 2009:
Magnetically tunable left handed metamaterials by liquid crystal orientation

Nakamura, M.; Okuyama, D.; Lee, J.Seok.; Arima, T-hisa.; Wakabayashi, Y.; Kumai, R.; Kawasaki, M.; Tokura, Y., 2010:
Magnetically tunable metal-insulator superlattices

Kang, L.; Zhao, Q.; Zhao, H.; Zhou, J., 2008:
Magnetically tunable negative permeability metamaterial composed by split ring resonators and ferrite rods

Adrian, M.; Helseth, L.E., 2008:
Magnetically tunable optical absorbance in a colloidal system

Chen, C-Yuan.; Hsieh, C-Fan.; Lin, Y-Feng.; Pan, R-Pin.; Pan, C-Ling., 2004:
Magnetically tunable room-temperature 2 pi liquid crystal terahertz phase shifter

Zhang, R.; Zhang, J.; Li, J.; Hu, Q.; Peng, R.; Wang, M., 2010:
Magnetically tunable spin filtering in semiconductor nanowires

Wei, C-Ming.; Chen, C-Wei.; Wang, C-Hsiung.; Chen, J-Ying.; Chen, Y-Chuan.; Chen, Y-Fang., 2011:
Magnetically tunable surface plasmon resonance based on a composite consisting of noble metal nanoparticles and a ferromagnetic thin film

Kong, S.Deok.; Zhang, W.; Lee, J.Hee.; Brammer, K.; Lal, R.; Karin, M.; Jin, S., 2014:
Magnetically vectored nanocapsules for tumor penetration and remotely switchable on-demand drug release

Seeney, C.; Ojwang, J.O.; Weiss, R.D.; Klostergaard, J., 2012:
Magnetically vectored platforms for the targeted delivery of therapeutics to tumors: history and current status

Hetts, S.W.; Saeed, M.; Martin, A.; Lillaney, P.; Losey, A.; Yee, E.Jeannie.; Sincic, R.; Do, L.; Evans, L.; Malba, V.; Bernhardt, A.F.; Wilson, M.W.; Patel, A.; Arenson, R.L.; Caton, C.; Cooke, D.L., 2013:
Magnetically-Assisted Remote Controlled Microcatheter Tip Deflection under Magnetic Resonance Imaging

Khaderi, S.N.; Craus, C.B.; Hussong, J.; Schorr, N.; Belardi, J.; Westerweel, J.; Prucker, O.; Rühe, J.; den Toonder, J.M.J.; Onck, P.R., 2011:
Magnetically-actuated artificial cilia for microfluidic propulsion

Chung, K.Hyo.; Choi, Y.Han.; Yang, J-Heon.; Park, C.Woo.; Kim, W-Joong.; Ah, C.Seong.; Sung, G.Yong., 2012:
Magnetically-actuated blood filter unit attachable to pre-made biochips

Shabani, A.; Marquette, C.A.; Mandeville, R.; Lawrence, M.F., 2014:
Magnetically-assisted impedimetric detection of bacteria using phage-modified carbon microarrays

Settecase, F.; Sussman, M.S.; Wilson, M.W.; Hetts, S.; Arenson, R.L.; Malba, V.; Bernhardt, A.F.; Kucharczyk, W.; Roberts, T.P.L., 2007:
Magnetically-assisted remote control (MARC) steering of endovascular catheters for interventional MRI: a model for deflection and design implications

Balzerova, A.; Fargasova, A.; Markova, Z.; Ranc, V.; Zboril, R., 2015:
Magnetically-assisted surface enhanced raman spectroscopy (MA-SERS) for label-free determination of human immunoglobulin G (IgG) in blood using Fe3O4@Ag nanocomposite

Chiriacò, F.; Soloperto, G.; Greco, A.; Conversano, F.; Ragusa, A.; Menichetti, L.; Casciaro, S., 2013:
Magnetically-coated silica nanospheres for dual-mode imaging at low ultrasound frequency

Ger, T-Rong.; Huang, H-Ting.; Chen, W-Yun.; Lai, M-Feng., 2013:
Magnetically-controllable zigzag structures as cell microgripper

Mart, R.J.; Liem, K.Ping.; Webb, S.J., 2009:
Magnetically-controlled release from hydrogel-supported vesicle assemblies

Sebastian, Víctor.; Calatayud, M.Pilar.; Goya, G.F.; Santamaria, J., 2013:
Magnetically-driven selective synthesis of Au clusters on Fe3O4 nanoparticles

Chertok, B.; David, A.E.; Yang, V.C., 2011:
Magnetically-enabled and MR-monitored selective brain tumor protein delivery in rats via magnetic nanocarriers

Moreira, J.Agostinho.; Almeida, A.; Chaves, M.R.; Kreisel, J.; Oliveira, J.; Carpinteiro, F.; Tavares, P.B., 2012:
Magnetically-induced lattice distortions and ferroelectricity in magnetoelectric GdMnO3

Arbab, A.S.; Rad, A.M.; Iskander, A.S.M.; Jafari-Khouzani, K.; Brown, S.L.; Churchman, J.L.; Ding, G.; Jiang, Q.; Frank, J.A.; Soltanian-Zadeh, H.; Peck, D.J., 2007:
Magnetically-labeled sensitized splenocytes to identify glioma by MRI: a preliminary study

Smith, G.N.; Eastoe, J., 2014:
Magnetically-responsive electrophoretic silica organosols

Dai, Q.; Nelson, A., 2011:
Magnetically-responsive self assembled composites

Day, P., 1994:
Magnetics for chemists

Belo, D.; Jesus Pereira, L.Cristina.; Almeida, M.; Rovira, Có.; Veciana, J.; Gama, V., 2009:
Magnetisation inverted hysteresis loops in the molecular magnets [M(Cp)2][Ni(alpha-tpdt)2] (M = Fe, Mn)

Ito, K.; Hayashida, M.; Izumitani, S.; Fujimine, T.; Onishi, T.; Genba, K., 2014:
Magnetisation transfer MR imaging of the kidney: evaluation at 3.0 T in association with renal function

De Vita, E.; Günther, M.; Golay, X.; Thomas, D.L., 2012:
Magnetisation transfer effects of Q2TIPS pulses in ASL

Klistorner, A.; Chaganti, J.; Garrick, R.; Moffat, K.; Yiannikas, C., 2011:
Magnetisation transfer ratio in optic neuritis is associated with axonal loss, but not with demyelination

Rashid, F.; Davies, L.; Iftikhar, S.Y., 2010:
Magnetised intragastric foreign body collection and autism: An advice for carers and literature review

Charap, S.H.; Elfant, R.F., 1964:
Magnetism

Johnson, D.W., 1906:
Magnetism of Diamond Drill Rods

Popov, I.; Baadji, N.; Sanvito, S., 2012:
Magnetism and antiferroelectricity in MgB6

Philpott, M.R.; Prabhat; Kawazoe, Y., 2011:
Magnetism and bonding in graphene nanodots with H modified interior, edge, and apex

SELWOOD, P.W., 2011:
Magnetism and catalysis

Güçlü, A.D.; Potasz, P.; Voznyy, O.; Korkusinski, M.; Hawrylak, P., 2010:
Magnetism and correlations in fractionally filled degenerate shells of graphene quantum dots

Bauer, W.; Weber, B., 2008:
Magnetism and crystal structure of an N3O3-coordinated iron(II) complex

Sonier, J.E.; Huang, W.; Kaiser, C.V.; Cochrane, C.; Pacradouni, V.; Sabok-Sayr, S.A.; Lumsden, M.D.; Sales, B.C.; McGuire, M.A.; Sefat, A.S.; Mandrus, D., 2011:
Magnetism and disorder effects on muon spin rotation measurements of the magnetic penetration depth in iron-arsenic superconductors

Boukhvalov, D.W.; Gornostyrev, Y.N.; Katsnelson, M.I.; Lichtenstein, A.I., 2008:
Magnetism and local distortions near carbon impurity in gamma-iron

Néel, L., 1971:
Magnetism and local molecular field

Wang, J.L.; Campbell, S.J.; Hofmann, M.; Kennedy, S.J.; Zeng, R.; Md Din, M.F.; Dou, S.X.; Arulraj, A.; Stusser, N., 2013:
Magnetism and magnetic structures of PrMn2Ge2-xSix

Kricka, L.J.; Park, J.Y., 2009:
Magnetism and magnetoresistance: attractive prospects for point-of-care testing?

Kitaoka, Y.; Sakai, T.; Nakamura, K.; Akiyama, T.; Ito, T., 2013:
Magnetism and multiplets in metal-phthalocyanine molecules

Chiesa, S.; Varney, C.N.; Rigol, M.; Scalettar, R.T., 2011:
Magnetism and pairing of two-dimensional trapped fermions

Sheng, W.; Ning, Z.Y.; Yang, Z.Q.; Guo, H., 2010:
Magnetism and perfect spin filtering effect in graphene nanoflakes

Durand, A.M.; Belanger, D.P.; Booth, C.H.; Ye, F.; Chi, S.; Fernandez-Baca, J.A.; Bhat, M., 2013:
Magnetism and phase transitions in LaCoO3

Arosio, P.; Baldi, G.; Chiellini, F.; Corti, M.; Dessy, A.; Galinetto, P.; Gazzarri, M.; Grandi, M.Simone.; Innocenti, C.; Lascialfari, A.; Lorenzi, G.; Orsini, F.; Piras, A.Maria.; Ravagli, C.; Sangregorio, C., 2014:
Magnetism and spin dynamics of novel encapsulated iron oxide superparamagnetic nanoparticles

Perec, M.; Baggio, R.; Sartoris, R.P.; Santana, R.C.; Peña, O.; Calvo, R., 2010 :
Magnetism and structure in chains of copper dinuclear paddlewheel units

Philpott, M.R.; Kawazoe, Y., 2012:
Magnetism and structure of graphene nanodots with interiors modified by boron, nitrogen, and charge

Nair, S.; Stockert, O.; Witte, U.; Nicklas, M.; Schedler, R.; Kiefer, K.; Thompson, J.D.; Bianchi, A.D.; Fisk, Z.; Wirth, S.; Steglich, F., 2010:
Magnetism and superconductivity driven by identical 4f states in a heavy-fermion metal

Sarkar, R.; Nath, R.; Khuntia, P.; Jeevan, H.S.; Gegenwart, P.; Baenitz, M., 2012:
Magnetism and superconductivity in Eu0.2Sr0.8(Fe0.86Co0.14)2As2 probed by 75As NMR

Messmer, P.R.; Turkel, M.C., 2011:
Magnetism and the nursing workforce

Gnida, D.; Kaczorowski, D., 2013:
Magnetism and weak electronic correlations in Ce₂PdGa₁₂

Sielemann, R.; Kobayashi, Y.; Yoshida, Y.; Gunnlaugsson, H.P.; Weyer, G., 2008:
Magnetism at single isolated iron atoms implanted in graphite

Mouketo, L.; Binggeli, N.; M'Passi-Mabiala, B., 2011:
Magnetism at the V/Gd interface

Feng, N.; Mi, W.; Cheng, Y.; Guo, Z.; Schwingenschlögl, U.; Bai, H., 2014:
Magnetism by interfacial hybridization and p-type doping of MoS(2) in Fe(4)N/MoS(2) superlattices: a first-principles study

Billas, I.M.; Châtelain, A.; de Heer, W.A., 1994:
Magnetism from the atom to the bulk in iron, cobalt, and nickel clusters

Wu, H.; Stroppa, A.; Sakong, S.; Picozzi, S.; Scheffler, M.; Kratzer, P., 2011:
Magnetism in C- or N-doped MgO and ZnO: a density-functional study of impurity pairs

Lumsden, M.D.; Christianson, A.D., 2011:
Magnetism in Fe-based superconductors

Sendelbach, S.; Hover, D.; Kittel, A.; Mück, M.; Martinis, J.M.; McDermott, R., 2008:
Magnetism in SQUIDs at millikelvin temperatures

Hong, N.Hoa.; Sakai, J.; Hassini, A., 2005:
Magnetism in V-doped ZnO thin films

Medvedeva, N.I.; Van Aken, D.; Medvedeva, J.E., 2011:
Magnetism in bcc and fcc Fe with carbon and manganese

Oszwałdowski, Rł.; Zutić, I.; Petukhov, A.G., 2011:
Magnetism in closed-shell quantum dots: emergence of magnetic bipolarons

Yazyev, O.V., 2008:
Magnetism in disordered graphene and irradiated graphite

Hong, J-Il.; Choi, J.; Jang, S.Soon.; Gu, J.; Chang, Y.; Wortman, G.; Snyder, R.L.; Wang, Z.Lin., 2012:
Magnetism in dopant-free ZnO nanoplates

Lancaster, T.; Blundell, S.J.; Andreica, D.; Janoschek, M.; Roessli, B.; Gvasaliya, S.N.; Conder, K.; Pomjakushina, E.; Brooks, M.L.; Baker, P.J.; Prabhakaran, D.; Hayes, W.; Pratt, F.L., 2007:
Magnetism in geometrically frustrated YMnO3 under hydrostatic pressure studied with muon spin relaxation

Nealon, G.L.; Donnio, B.; Greget, R.; Kappler, J-Paul.; Terazzi, E.; Gallani, J-Louis., 2012:
Magnetism in gold nanoparticles

Singh, R.; Kroll, P., 2009:
Magnetism in graphene due to single-atom defects: dependence on the concentration and packing geometry of defects

Fernández-Rossier, J.; Palacios, J.J., 2007:
Magnetism in graphene nanoislands

Lu, J.; Jung, H-Ji.; Lau, K.Chun.; Zhang, Z.; Schlueter, J.A.; Du, P.; Assary, R.S.; Greeley, J.; Ferguson, G.A.; Wang, H-Hau.; Hassoun, J.; Iddir, H.; Zhou, J.; Zuin, L.; Hu, Y.; Sun, Y-Kook.; Scrosati, B.; Curtiss, L.A.; Amine, K., 2014:
Magnetism in lithium-oxygen discharge product

Atwood, J.L.; Brechin, E.K.; Dalgarno, S.J.; Inglis, R.; Jones, L.F.; Mossine, A.; Paterson, M.J.; Power, N.P.; Teat, S.J., 2010:
Magnetism in metal-organic capsules

Faccio, R.; Mombrú, A.W., 2012:
Magnetism in multivacancy graphene systems

Tuboltsev, V.; Savin, A.; Pirojenko, A.; Räisänen, J., 2014:
Magnetism in nanocrystalline gold

Peddis, D.; Cannas, C.; Musinu, A.; Piccaluga, G., 2009:
Magnetism in nanoparticles: beyond the effect of particle size

Crespo, P.; de la Presa, P.; Marín, P.; Multigner, M.; Alonso, Jé.María.; Rivero, G.; Yndurain, Félix.; González-Calbet, Jé.María.; Hernando, A., 2014:
Magnetism in nanoparticles: tuning properties with coatings

Wang, M.; Huang, W.; Chan-Park, M.B.; Li, C.Ming., 2011:
Magnetism in oxidized graphenes with hydroxyl groups

Ducatman, S.; Perkins, N.B.; Chubukov, A., 2012:
Magnetism in parent iron chalcogenides: quantum fluctuations select plaquette order

Choi, T.; Badal, M.; Loth, S.; Yoo, J-W.; Lutz, C.P.; Heinrich, A.J.; Epstein, A.J.; Stroud, D.G.; Gupta, J.A., 2014:
Magnetism in single metalloorganic complexes formed by atom manipulation

Shan, A.; Liu, W.; Wang, R.; Chen, C., 2013:
Magnetism in undoped ZnS nanotetrapods

Van Koningsbruggen, P.J.; Kahn, O.; Nakatani, K.; Pei, Y.; Renard, J.P.; Drillon, M.; Legoll, P., 1990:
Magnetism of A-copper(II) bimetallic chain compounds (A = iron, cobalt, nickel): one- and three-dimensional behaviors

Li, J.; Zhou, G.; Chen, Y.; Gu, B-Lin.; Duan, W., 2009:
Magnetism of C adatoms on BN nanostructures: implications for functional nanodevices

Honolka, J.; Lee, T.Y.; Kuhnke, K.; Enders, A.; Skomski, R.; Bornemann, S.; Mankovsky, S.; Minár, J.; Staunton, J.; Ebert, H.; Hessler, M.; Fauth, K.; Schütz, G.; Buchsbaum, A.; Schmid, M.; Varga, P.; Kern, K., 2009:
Magnetism of FePt surface alloys

Liu, Z-S.; Sechovský, V.; Diviš, M., 2011:
Magnetism of PrAl₂ nanoparticle investigated with a quantum simulation model

Malavolti, L.; Poggini, L.; Margheriti, L.; Chiappe, D.; Graziosi, P.; Cortigiani, B.; Lanzilotto, V.; Buatier de Mongeot, F.; Ohresser, P.; Otero, E.; Choueikani, F.; Sainctavit, P.; Bergenti, I.; Dediu, V.A.; Mannini, M.; Sessoli, R., 2013:
Magnetism of TbPc2 SMMs on ferromagnetic electrodes used in organic spintronics

Sampathkumaran, E.V.; Mukherjee, K.; Iyer, K.K.; Mohapatra, N.; Das, S.D., 2011:
Magnetism of fine particles of Kondo lattices, obtained by high-energy ball-milling

Wongsaprom, K.; Venkatesan, M.; Maensiri, S.; Coey, J.M.D., 2011:
Magnetism of nanocrystalline (La(0.5)Sr(0.5))TiO3 doped with 3d cations

Lounis, S.; Dederichs, P.H.; Blügel, S., 2008:
Magnetism of nanowires driven by novel even-odd effects

Zhou, J.; Sun, Q., 2012:
Magnetism of phthalocyanine-based organometallic single porous sheet

Lindner, J.; Hassel, C.; Trunova, A.V.; Römer, F.M.; Stienen, S.; Barsukov, I., 2010:
Magnetism of single-crystalline Fe nanostructures

Volnianska, O.; Boguslawski, P., 2011:
Magnetism of solids resulting from spin polarization of p orbitals

Longo, R.C.; Carrete, J.; Gallego, L.J., 2011:
Magnetism of substitutional Fe impurities in graphene nanoribbons

Kalvius, G.M.; Krimmel, A.; Wäppling, R.; Hartmann, O.; Litterst, F.J.; Wagner, F.E.; Tsurkan, V.; Loidl, A., 2013:
Magnetism of the chromium thio-spinels Fe1-xCuxCr2S4 studied using muon spin rotation and relaxation

Steglich, F.; Arndt, J.; Stockert, O.; Friedemann, S.; Brando, M.; Klingner, C.; Krellner, C.; Geibel, C.; Wirth, S.; Kirchner, S.; Si, Q., 2012:
Magnetism, f-electron localization and superconductivity in 122-type heavy-fermion metals

Li, R-Wei.; Belik, A.A.; Wang, Z-Hong.; Shen, B-Gen., 2009:
Magnetism, transport, and specific heat of electronically phase-separated Pr(0.7)Pb(0.3)MnO(3) single crystals

Leconte, N.; Soriano, D.; Roche, S.; Ordejon, P.; Charlier, J-Christophe.; Palacios, J.J., 2011:
Magnetism-dependent transport phenomena in hydrogenated graphene: from spin-splitting to localization effects

Yang, H.; Han, L.; Zhao, J.; Song, X.; Song, Q.; Bu, Y., 2012:
Magnetism-tunable oligoacene dioxide diradicals: promising magnetic oligoacene-like molecules

Brown, W.F., 1965:
Magnetism: A Decade of Conferences

Karoui, S.; Amara, H.; Legrand, B.; Ducastelle, F., 2013:
Magnetism: the driving force of order in CoPt, a first-principles study

Hazen, H.A., 1895:
Magnetisma and the Weather

Khan, J.Ahmad.; Mandal, T.Kumar.; Das, T.Kumar.; Singh, Y.; Pillai, B.; Maiti, S., 2011:
Magnetite (Fe3O4) nanocrystals affect the expression of genes involved in the TGF-beta signalling pathway

Ziese, M.; Esquinazi, P.D.; Pantel, D.; Alexe, M.; Nemes, N.M.; Garcia-Hernández, M., 2012:
Magnetite (Fe3O4): a new variant of relaxor multiferroic?

Nozawa, J.; Tsukamoto, K.; van Enckevort, W.; Nakamura, T.; Kimura, Y.; Miura, H.; Satoh, H.; Nagashima, K.; Konoto, M., 2011:
Magnetite 3D colloidal crystals formed in the early solar system 4.6 billion years ago

Stephen, Z.R.; Kievit, F.M.; Zhang, M., 2012:
Magnetite Nanoparticles for Medical MR Imaging

de Araujo, F.F.; Pires, M.A.; Frankel, R.B.; Bicudo, C.E., 1986:
Magnetite and magnetotaxis in algae

Crane, R.A.; Dickinson, M.; Popescu, I.C.; Scott, T.B., 2011:
Magnetite and zero-valent iron nanoparticles for the remediation of uranium contaminated environmental water

Fdez-Gubieda, M.Luisa.; Muela, A.; Alonso, J.; García-Prieto, A.; Olivi, L.; Fernández-Pacheco, R.; Barandiarán, Jé.Manuel., 2013:
Magnetite biomineralization in Magnetospirillum gryphiswaldense: time-resolved magnetic and structural studies

Baumgartner, J.; Faivre, D., 2016:
Magnetite biomineralization in bacteria

Gonçalves, R.H.; Lima, B.H.R.; Leite, E.R., 2011:
Magnetite colloidal nanocrystals: a facile pathway to prepare mesoporous hematite thin films for photoelectrochemical water splitting

Liu, F.; Rotaru, A-Elena.; Shrestha, P.M.; Malvankar, N.S.; Nevin, K.P.; Lovley, D.R., 2015:
Magnetite compensates for the lack of a pilin-associated c-type cytochrome in extracellular electron exchange

Silva-Freitas, E.Lira.; Carvalho, J.Fernandes.; Pontes, T.R.F.; Araújo-Neto, R.P.; Carriço, A.Silva.; Egito, E.Socrates.Tabosa., 2012:
Magnetite content evaluation on magnetic drug delivery systems by spectrophotometry: a technical note

Chin, S.Fun.; Makha, M.; Raston, C.L.; Saunders, M., 2007:
Magnetite ferrofluids stabilized by sulfonato-calixarenes

Lin, T.Jennifer.; Breves, E.A.; Dyar, M.D.; Ver Eecke, H.C.; Jamieson, J.W.; Holden, J.F., 2014:
Magnetite formation from ferrihydrite by hyperthermophilic archaea from Endeavour Segment, Juan de Fuca Ridge hydrothermal vent chimneys

Størmer, F.C., 2014:
Magnetite in dura and pia mater in human brain. A shield against electromagnetic radiation?

Frankel, R.B.; Blakemore, R.P.; Wolfe, R.S., 1979:
Magnetite in freshwater magnetotactic bacteria

Ramesh, V.; Ravichandran, P.; Copeland, C.L.; Gopikrishnan, R.; Biradar, S.; Goornavar, V.; Ramesh, G.T.; Hall, J.C., 2012:
Magnetite induces oxidative stress and apoptosis in lung epithelial cells

Taketomi-Takahashi, A.; Tsushima, Y.; Nakajima, T.; Takano, A.; Amanuma, M.; Endo, K., 2007:
Magnetite ingested as a nutritional supplement: unexpected source of MRI susceptibility artifact

Xu, F.; Cheng, C.; Chen, D-Xing.; Gu, H., 2012:
Magnetite nanocrystal clusters with ultra-high sensitivity in magnetic resonance imaging

Theppaleak, T.; Rutnakornpituk, B.; Wichai, U.; Vilaivan, T.; Rutnakornpituk, M., 2013:
Magnetite nanoparticle with positively charged surface for immobilization of peptide nucleic acid and deoxyribonucleic acid

Yu, C-Ju.; Wu, S-Mei.; Tseng, W-Lung., 2014:
Magnetite nanoparticle-induced fluorescence quenching of adenosine triphosphate-BODIPY Conjugates: application to adenosine triphosphate and pyrophosphate sensing

Liao, Y.; He, L.; Huang, J.; Zhang, J.; Zhuang, L.; Shen, H.; Su, C-Yong., 2010:
Magnetite nanoparticle-supported coordination polymer nanofibers: synthesis and catalytic application in Suzuki-Miyaura coupling

Brismar, T.B.; Grishenkov, D.; Gustafsson, Börn.; Härmark, J.; Barrefelt, A.; Kothapalli, S.V.V.N.; Margheritelli, S.; Oddo, L.; Caidahl, K.; Hebert, H.; Paradossi, G., 2012:
Magnetite nanoparticles can be coupled to microbubbles to support multimodal imaging

Joshi, H.; Sharma, K.Nayan.; Sharma, A.K.; Prakash, O.; Kumar, A.; Singh, A.Kumar., 2015:
Magnetite nanoparticles coated with ruthenium via SePh layer as a magnetically retrievable catalyst for the selective synthesis of primary amides in an aqueous medium

Zhu, Z.; Rezhdo, O.; Perrone, M.; Bao, Z.; Munir, A.; Wang, J.; Zhou, H.Susan.; Shao, J., 2013:
Magnetite nanoparticles doped photoresist derived carbon as a suitable substratum for nerve cell culture

Anghel, I.; Grumezescu, A.Mihai.; Andronescu, E.; Anghel, A.Georgiana.; Ficai, A.; Saviuc, C.; Grumezescu, V.; Vasile, B.Stefan.; Chifiriuc, M.Carmen., 2012:
Magnetite nanoparticles for functionalized textile dressing to prevent fungal biofilms development

Bassiony, H.; Sabet, S.; Salah El-Din, T.A.; Mohamed, M.M.; El-Ghor, A.A., 2015:
Magnetite nanoparticles inhibit tumor growth and upregulate the expression of p53/p16 in Ehrlich solid carcinoma bearing mice

Kavitha, A.L.; Prabu, H.Gurumallesh.; Babu, S.Ananda.; Suja, S.K., 2013:
Magnetite nanoparticles-chitosan composite containing carbon paste electrode for glucose biosensor application

Podoliak, N.; Buchnev, O.; Bavykin, D.V.; Kulak, A.N.; Kaczmarek, M.; Sluckin, T.J., 2012:
Magnetite nanorod thermotropic liquid crystal colloids: synthesis, optics and theory

Liakos, I.; Grumezescu, A.Mihai.; Holban, A.Maria., 2015:
Magnetite nanostructures as novel strategies for anti-infectious therapy

Voicu, G.; Crică, L.Elena.; Fufă, O.; Moraru, L.Iuliana.; Popescu, R.Cristina.; Purcel, G.; Stoilescu, M.Codruta.; Grumezescu, A.Mihai.; Bleotu, C.; Holban, A.Maria.; Andronescu, E., 2015:
Magnetite nanostructures functionalized with cytostatic drugs exhibit great anti-tumoral properties without application of high amplitude alternating magnetic fields

Cruz Viggi, C.; Rossetti, S.; Fazi, S.; Paiano, P.; Majone, M.; Aulenta, F., 2014:
Magnetite particles triggering a faster and more robust syntrophic pathway of methanogenic propionate degradation

Park, E-Jung.; Umh, H.Nee.; Choi, D-Hyuk.; Cho, M.Haing.; Choi, W.; Kim, S-Wook.; Kim, Y.; Kim, J-Ho., 2015:
Magnetite- and maghemite-induced different toxicity in murine alveolar macrophage cells

Sandison, M.E.; Jensen, K.Tveen.; Gesellchen, F.; Cooper, J.M.; Pitt, A.R., 2015:
Magnetite-doped polydimethylsiloxane (PDMS) for phosphopeptide enrichment

Li, X.; Li, H.; Liu, G.; Deng, Z.; Wu, S.; Li, P.; Xu, Z.; Xu, H.; Chu, P.K., 2012:
Magnetite-loaded fluorine-containing polymeric micelles for magnetic resonance imaging and drug delivery

Gao, G.Hui.; Im, G.Ho.; Kim, M.Sang.; Lee, J.Won.; Yang, J.; Jeon, H.; Lee, J.Hee.; Lee, D.Sung., 2010:
Magnetite-nanoparticle-encapsulated pH-responsive polymeric micelle as an MRI probe for detecting acidic pathologic areas

Kale, A.; Kale, S.; Yadav, P.; Gholap, H.; Pasricha, R.; Jog, J.P.; Lefez, B.; Hannoyer, Béatrice.; Shastry, P.; Ogale, S., 2011:
Magnetite/CdTe magnetic-fluorescent composite nanosystem for magnetic separation and bio-imaging

Chun, J.; Lee, H.; Lee, S-Hyup.; Hong, S-Won.; Lee, J.; Lee, C.; Lee, J., 2012:
Magnetite/mesocellular carbon foam as a magnetically recoverable fenton catalyst for removal of phenol and arsenic

Keeling, R.O.; Wick, D.A., 1963:
Magnetite: Preferred Orientation on the Basal Plane of Partially Reduced Hematite

Fonin, M.; Dedkov, Y.S.; Pentcheva, R.; Rüdiger, U.; Güntherodt, G., 2007:
Magnetite: a search for the half-metallic state

Provasi, P.F.; Pagola, G.I.; Ferraro, M.B.; Pelloni, S.; Lazzeretti, P., 2013:
Magnetizabilities of diatomic and linear triatomic molecules in a time-independent nonuniform magnetic field

Loibl, S.; Schütz, M., 2014:
Magnetizability and rotational g tensors for density fitted local second-order Møller-Plesset perturbation theory using gauge-including atomic orbitals

Zuniga-Gutierrez, B.; Geudtner, G.; Köster, A.M., 2012:
Magnetizability tensors from auxiliary density functional theory

Dehal, P.Kaur.; Livingston, C.Frances.; Dunn, C.Geekie.; Buick, R.; Luxton, R.; Pritchard, D.John., 2010:
Magnetizable antibody-like proteins

Barnett, S.J., 1918:
Magnetization by Rotation

Karapetoff, V., 1924:
Magnetization Curve, Names for its Parts

Wu, C-Shawn.; Chang, Y-Cheng.; Chen, W.; Chen, C.; Feng, Q., 2012:
Magnetization and electric transport properties of single-crystal MgB2 nanowires

Abrecht, M.; Adare, A.; Ekin, J.W., 2007:
Magnetization and magnetoresistance of common alloy wires used in cryogenic instrumentation

Yang, K.; Rezayi, E.H., 2008:
Magnetization and spin excitations of non-Abelian quantum Hall states

Ovchinnikov, A.S.; Sinitsyn, V.E.; Bostrem, I.G.; Hosokoshi, Y.; Inoue, K., 2012:
Magnetization and spin gap in two-dimensional organic ferrimagnet BIPNNBNO

Szalai, I.; Dietrich, S., 2008:
Magnetization and susceptibility of ferrofluids

Klokkenburg, M.; Erné, B.H.; Mendelev, V.; Ivanov, A.O., 2008:
Magnetization behavior of ferrofluids with cryogenically imaged dipolar chains

Zasada, I., 2011:
Magnetization behaviour in ultrathin Co/Cu/Ni/Cu(001) trilayers

Kruglyak, V.V.; Gorobets, O.Yu.; Gorobets, Y.I.; Kuchko, A.N., 2014:
Magnetization boundary conditions at a ferromagnetic interface of finite thickness

Chang, C-Ray.; Yang, J-Shinn., 2008:
Magnetization configurations and magnetization reversal of thin submicron permalloy ellipses with structural defects

Kolling, S.; Oborn, B.M.; Keall, P.J.; Horvat, J., 2015:
Magnetization curves of sintered heavy tungsten alloys for applications in MRI-guided radiotherapy

Xia, W.; Aizawa, S.; Tanigaki, T.; Suzuki, T.; Yoshizawa, Y.; Shindo, D.; Tonomura, A., 2011:
Magnetization distribution of magnetic vortex of amorphous FeSiB investigated by electron holography and computer simulation

Goryca, M.; Ferrand, D.; Kossacki, P.; Nawrocki, M.; Pacuski, W.; Maślana, W.; Gaj, J.A.; Tatarenko, S.; Cibert, J.; Wojtowicz, T.; Karczewski, G., 2009:
Magnetization dynamics down to a zero field in dilute (Cd,Mn)Te quantum wells

Woltersdorf, G.; Mosendz, O.; Heinrich, B.; Back, C.H., 2008:
Magnetization dynamics due to pure spin currents in magnetic double layers

Parekh, K.; Upadhyay, R.V., 2012:
Magnetization dynamics in rare earth Gd3+ doped Mn(0.5)Zn(0.5)Fe2O4 magnetic fluid: electron spin resonance study

Bernhoeft, N.; Hiess, A.; Metoki, N.; Lander, G.H.; Roessli, B., 2006:
Magnetization dynamics in the normal and superconducting phases of UPd(2)Al(3): II. Inferences on the nodal gap symmetry

Kuepper, K.; Wintz, S.; Raabe, J.; Buess, M.; Akhmadaliev, C.; Bischoff, L.; Quitmann, C.; Fassbender, J., 2009:
Magnetization dynamics of Landau structures: tuning the response of mesoscopic magnetic objects using defects

Fashami, M.Salehi.; Roy, K.; Atulasimha, J.; Bandyopadhyay, S., 2011:
Magnetization dynamics, Bennett clocking and associated energy dissipation in multiferroic logic

Salehi Fashami, M.; Atulasimha, J.; Bandyopadhyay, S., 2012:
Magnetization dynamics, throughput and energy dissipation in a universal multiferroic nanomagnetic logic gate with fan-in and fan-out

Stafford, R.B.; Sabati, M.; Mahallati, H.; Frayne, R., 2007:
Magnetization evolution in balanced steady-state free precession with continuously moving table

MacMillan, E.L.; Chong, D.G.Q.; Dreher, W.; Henning, A.; Boesch, C.; Kreis, R., 2011:
Magnetization exchange with water and T1 relaxation of the downfield resonances in human brain spectra at 3.0 T

Müller, Aé.; Milošević, M.V.; Dale, S.E.C.; Engbarth, M.A.; Bending, S.J., 2012:
Magnetization measurements and Ginzburg-Landau simulations of micron-size β-tin samples: evidence for an unusual critical behavior of mesoscopic type-I superconductors

Flanders, P.J.; Graham, C.D., 1979:
Magnetization measurements using the field gradient of a high-field solenoid

Matsuda, Y.H.; Abe, N.; Takeyama, S.; Kageyama, H.; Corboz, P.; Honecker, A.; Manmana, S.R.; Foltin, G.R.; Schmidt, K.P.; Mila, F., 2013:
Magnetization of SrCu2(BO3)2 in ultrahigh magnetic fields up to 118 T

Shukla, N.; Shukla, P.K.; Stenflo, L., 2009:
Magnetization of a warm plasma by the nonstationary ponderomotive force of an electromagnetic wave

Kim, S.; Yi, J.; Choi, M.Y., 2007:
Magnetization of circular DNA

Ali-Zade, R.A., 2011:
Magnetization of magnetite nanoparticles mediums with weak magnetic dipole-dipole interaction

Szalai, I.; Dietrich, S., 2011:
Magnetization of multicomponent ferrofluids

Kristóf, T.; Szalai, I., 2008:
Magnetization of two-dimensional magnetic fluids

Metlov, K.L., 2010:
Magnetization patterns in ferromagnetic nanoelements as functions of complex variable

Nema, H.; Yamaguchi, A.; Hayakawa, T.; Ishimoto, H., 2009:
Magnetization plateau of two-dimensional antiferromagnetic solid 3He on a triangular lattice

Sen, A.; Damle, K.; Vishwanath, A., 2008:
Magnetization plateaus and sublattice ordering in easy-axis kagome lattice antiferromagnets

Susuki, T.; Kurita, N.; Tanaka, T.; Nojiri, H.; Matsuo, A.; Kindo, K.; Tanaka, H., 2013:
Magnetization process and collective excitations in the S=1/2 triangular-lattice Heisenberg antiferromagnet Ba3CoSb2O9

Bonville, P.; Petit, S.; Mirebeau, I.; Robert, J.; Lhotel, E.; Paulsen, C., 2014:
Magnetization process in Er2Ti2O7 at very low temperature

Strečka, J.; Rojas, O.; Verkholyak, T.; Lyra, M.L., 2015:
Magnetization process, bipartite entanglement, and enhanced magnetocaloric effect of the exactly solved spin-1/2 Ising-Heisenberg tetrahedral chain

Mathew, S.P.; Kaul, S.N., 2012:
Magnetization processes in nanocrystalline gadolinium

Armaitis, J.; Stoof, H.T.C.; Duine, R.A., 2013:
Magnetization relaxation and geometric forces in a Bose ferromagnet

Wang, P-Fei.; Duan, Y.; Clemente-Juan, J.Modesto.; Song, Y.; Qian, K.; Gao, S.; Zheng, L-Min., 2011:
Magnetization relaxation in a three-dimensional ligated cobalt phosphonate containing ferrimagnetic chains

Chen, W.; Li, P.; Chen, C.; Wang, R., 2012:
Magnetization reversal and anisotropy with chains of superparamagnetic Ni nanoparticles

Skumryev, V.; Laukhin, V.; Fina, I.; Martí, X.; Sánchez, F.; Gospodinov, M.; Fontcuberta, J., 2011:
Magnetization reversal by electric-field decoupling of magnetic and ferroelectric domain walls in multiferroic-based heterostructures

Adam, J-P.; Jamet, J-P.; Ferré, J.; Mougin, A.; Rohart, S.; Weil, R.; Bourhis, E.; Gierak, J., 2010:
Magnetization reversal in Pt/Co(0.5 nm)/Pt nano-platelets patterned by focused ion beam lithography

Wang, Y.; Sharma, P.; Makino, A., 2012:
Magnetization reversal in a preferred oriented (111) L1(0) FePt grown on a soft magnetic metallic glass for tilted magnetic recording

Yan, Z.; Fan, X.; Li, Z., 2014:
Magnetization reversal in asymmetric trilayer dots: effect of the interlayer magnetostatic coupling

Fernández-Pacheco, A.; De Teresa, J.M.; Szkudlarek, A.; Córdoba, R.; Ibarra, M.R.; Petit, D.; O'Brien, L.; Zeng, H.T.; Lewis, E.R.; Read, D.E.; Cowburn, R.P., 2009:
Magnetization reversal in individual cobalt micro- and nanowires grown by focused-electron-beam-induced-deposition

Zeisberger, M.; Mattheis, R., 2011:
Magnetization reversal in magnetic nanostripes via Bloch wall formation

Huang, C-Chih.; Yu, C-Chung.; Chen, S-Yuan.; Yao, Y-Der.; Lai, J-Yang., 2012:
Magnetization reversal of Co/Pd multilayers on nanoporous templates

Ouazi, S.; Wedekind, S.; Rodary, G.; Oka, H.; Sander, D.; Kirschner, J., 2012:
Magnetization reversal of individual Co nanoislands

Krause, S.; Herzog, G.; Stapelfeldt, T.; Berbil-Bautista, L.; Bode, M.; Vedmedenko, E.Y.; Wiesendanger, R., 2009:
Magnetization reversal of nanoscale islands: how size and shape affect the arrhenius prefactor

Uzdin, V.M.; Vega, A., 2012:
Magnetization reversal process at atomic scale in systems with itinerant electrons

Ng, M-Cheuk.; Hua, J.; Hu, Y.; Luk, K.D.; Lam, E.Y., 2009:
Magnetization transfer (MT) asymmetry around the water resonance in human cervical spinal cord

Ginestroni, A.; Battaglini, M.; Diciotti, S.; Della Nave, R.; Mazzoni, L.N.; Tessa, C.; Giannelli, M.; Piacentini, S.; De Stefano, N.; Mascalchi, M., 2011:
Magnetization transfer MR imaging demonstrates degeneration of the subcortical and cortical gray matter in Huntington disease

Ropele, S.; Fazekas, F., 2008:
Magnetization transfer MR imaging in multiple sclerosis

Filippi, M.; Agosta, F., 2007:
Magnetization transfer MRI in multiple sclerosis

Tuite, P.J.; Mangia, S.; Tyan, A.E.; Lee, M.K.; Garwood, M.; Michaeli, S., 2012:
Magnetization transfer and adiabatic R 1ρ MRI in the brainstem of Parkinson's disease

Mangia, S.; Carpenter, A.F.; Tyan, A.E.; Eberly, L.E.; Garwood, M.; Michaeli, S., 2013:
Magnetization transfer and adiabatic T1ρ MRI reveal abnormalities in normal-appearing white matter of subjects with multiple sclerosis

Harel, A.; Eliav, U.; Akselrod, S.; Navon, G., 2008:
Magnetization transfer based contrast for imaging denatured collagen

Chan, K.W.Y.; Liu, G.; van Zijl, P.C.M.; Bulte, J.W.M.; McMahon, M.T., 2015:
Magnetization transfer contrast MRI for non-invasive assessment of innate and adaptive immune responses against alginate-encapsulated cells

Welsch, G.H.; Trattnig, S.; Scheffler, K.; Szomonanyi, P.; Quirbach, S.; Marlovits, S.; Domayer, S.; Bieri, O.; Mamisch, T.C., 2008:
Magnetization transfer contrast and T2 mapping in the evaluation of cartilage repair tissue with 3T MRI

Springer, F.; Martirosian, P.; Machann, Jürgen.; Schwenzer, N.F.; Claussen, C.D.; Schick, F., 2009:
Magnetization transfer contrast imaging in bovine and human cortical bone applying an ultrashort echo time sequence at 3 Tesla

Bigot, C.; Vanhoutte, G.; Verhoye, M.; Van der Linden, A., 2014:
Magnetization transfer contrast imaging reveals amyloid pathology in Alzheimer's disease transgenic mice

Hua, J.; Donahue, M.J.; Zhao, J.M.; Grgac, K.; Huang, A.J.; Zhou, J.; van Zijl, P.C.M., 2009:
Magnetization transfer enhanced vascular-space-occupancy (MT-VASO) functional MRI

Pazahr, S.; Blume, I.; Frei, P.; Chuck, N.; Nanz, D.; Rogler, G.; Patak, M.; Boss, A., 2014:
Magnetization transfer for the assessment of bowel fibrosis in patients with Crohn's disease: initial experience

Girard, O.M.; Prevost, V.H.; Varma, G.; Cozzone, P.J.; Alsop, D.C.; Duhamel, G., 2016:
Magnetization transfer from inhomogeneously broadened lines (ihMT): Experimental optimization of saturation parameters for human brain imaging at 1.5 Tesla

Varma, G.; Duhamel, G.; de Bazelaire, C.; Alsop, D.C., 2015:
Magnetization transfer from inhomogeneously broadened lines: A potential marker for myelin

Adler, J.; Swanson, S.D.; Schmiedlin-Ren, P.; Higgins, P.D.R.; Golembeski, C.P.; Polydorides, A.D.; McKenna, B.J.; Hussain, H.K.; Verrot, T.M.; Zimmermann, E.M., 2011:
Magnetization transfer helps detect intestinal fibrosis in an animal model of Crohn disease

Cosottini, M.; Pesaresi, I.; Piazza, S.; Diciotti, S.; Belmonte, G.; Battaglini, M.; Ginestroni, A.; Siciliano, G.; De Stefano, N.; Mascalchi, M., 2011:
Magnetization transfer imaging demonstrates a distributed pattern of microstructural changes of the cerebral cortex in amyotrophic lateral sclerosis

Seiler, S.; Ropele, S.; Schmidt, R., 2015:
Magnetization transfer imaging for in vivo detection of microstructural tissue changes in aging and dementia: a short literature review

Jurgens, C.K.; Bos, R.; Luyendijk, J.; Witjes-Ané, M-Noëlle.W.; van der Grond, J.; Middelkoop, H.A.M.; Roos, R.A.C., 2010:
Magnetization transfer imaging in 'premanifest' Huntington's disease

van den Bogaard, S.J.A.; Dumas, E.M.; Milles, J.; Reilmann, R.; Stout, J.C.; Craufurd, D.; van Buchem, M.A.; van der Grond, J.; Roos, R.A.C., 2012:
Magnetization transfer imaging in premanifest and manifest Huntington disease

van den Bogaard, S.J.A.; Dumas, E.M.; Hart, E.P.; Milles, J.; Reilmann, R.; Stout, J.C.; Craufurd, D.; Gibbard, C.R.; Tabrizi, S.J.; van Buchem, M.A.; van der Grond, J.; Roos, R.A.C., 2013:
Magnetization transfer imaging in premanifest and manifest huntington disease: a 2-year follow-up

Zivadinov, R.; Hussein, S.; Bergsland, N.; Minagar, A.; Dwyer, M.G., 2012:
Magnetization transfer imaging of acute black holes in patients on glatiramer acetate

Li, W.; Hong, L.; Hu, L.; Magin, R.L., 2011:
Magnetization transfer imaging provides a quantitative measure of chondrogenic differentiation and tissue development

Miese, F.R.; Schuster, F.R.; Pierstorff, K.; Karenfort, M.; Laws, H.J.; Borkhardt, A.; Saleh, A., 2012:
Magnetization transfer imaging provides no evidence of demyelination in methotrexate-induced encephalopathy

Zhang, T-Jiang.; Wu, Q-Zhu.; Huang, X-Qi.; Sun, X-Li.; Zou, K.; Lui, S.; Liu, F.; Hu, J-Mei.; Kuang, W-Hong.; Li, D-Ming.; Li, F.; Chen, H-Fu.; Chan, R.C.K.; Mechelli, A.; Gong, Q-Yong., 2009:
Magnetization transfer imaging reveals the brain deficit in patients with treatment-refractory depression

Zaborowski, A.; Aneta, A-Biernacka.; Biernacki, R.; Olszycki, M.; Kłoszewska, I.; Stefańczyk, L., 2007:
Magnetization transfer imaging--the new method of brain tissue investigation in schizophrenia

Malyarenko, D.I.; Zimmermann, E.M.; Adler, J.; Swanson, S.D., 2015:
Magnetization transfer in lamellar liquid crystals

Prantner, A.M.; Bretthorst, G.Larry.; Neil, J.J.; Garbow, J.R.; Ackerman, J.J.H., 2008:
Magnetization transfer induced biexponential longitudinal relaxation

Avni, R.; Mangoubi, O.; Bhattacharyya, R.; Degani, H.; Frydman, L., 2009:
Magnetization transfer magic-angle-spinning z-spectroscopy of excised tissues

Filippi, M.; Rocca, M.A., 2007:
Magnetization transfer magnetic resonance imaging of the brain, spinal cord, and optic nerve

Kettunen, M.I.; Hu, D-en.; Witney, T.H.; McLaughlin, R.; Gallagher, F.A.; Bohndiek, S.E.; Day, S.E.; Brindle, K.M., 2010:
Magnetization transfer measurements of exchange between hyperpolarized [1-13C]pyruvate and [1-13C]lactate in a murine lymphoma

Mougin, O.E.; Coxon, R.C.; Pitiot, A.; Gowland, P.A., 2010:
Magnetization transfer phenomenon in the human brain at 7 T

Dai, Z.; Ji, J.; Xiao, G.; Yan, G.; Li, S.; Zhang, G.; Lin, Y.; Shen, Z.; Wu, R., 2015:
Magnetization transfer prepared gradient echo MRI for CEST imaging

Whitney, H.M.; Gochberg, D.F.; Gore, J.C., 2008:
Magnetization transfer proportion: a simplified measure of dose response for polymer gel dosimetry

Fisniku, L.K.; Altmann, D.R.; Cercignani, M.; Tozer, D.J.; Chard, D.T.; Jackson, J.S.; Miszkiel, K.A.; Schmierer, K.; Thompson, A.J.; Miller, D.H., 2009:
Magnetization transfer ratio abnormalities reflect clinically relevant grey matter damage in multiple sclerosis

Wiwanitkit, V., 2012:
Magnetization transfer ratio as a marker for myelin in multiple sclerosis

Khaleeli, Z.; Altmann, D.R.; Cercignani, M.; Ciccarelli, O.; Miller, D.H.; Thompson, A.J., 2008:
Magnetization transfer ratio in gray matter: a potential surrogate marker for progression in early primary progressive multiple sclerosis

Arnold, D.L.; Gold, R.; Kappos, L.; Bar-Or, A.; Giovannoni, G.; Selmaj, K.; Yang, M.; Zhang, R.; Stephan, M.; Sheikh, S.I.; Dawson, K.T., 2015:
Magnetization transfer ratio in the delayed-release dimethyl fumarate DEFINE study

Wang, C.; Witschey, W.; Goldberg, A.; Elliott, M.; Borthakur, A.; Reddy, R., 2011:
Magnetization transfer ratio mapping of intervertebral disc degeneration

Siddique, D.; Hyare, H.; Wroe, S.; Webb, T.; Macfarlane, R.; Rudge, P.; Collinge, J.; Powell, C.; Brandner, S.; So, P-Wah.; Walker, S.; Mead, S.; Yousry, T.; Thornton, J.S., 2010:
Magnetization transfer ratio may be a surrogate of spongiform change in human prion diseases

Brown, R.A.; Narayanan, S.; Banwell, B.; Arnold, D.L., 2015:
Magnetization transfer ratio recovery in new lesions decreases during adolescence in pediatric-onset multiple sclerosis patients

Seiler, S.; Pirpamer, L.; Hofer, E.; Duering, M.; Jouvent, E.; Fazekas, F.; Mangin, J-Francois.; Chabriat, H.; Dichgans, M.; Ropele, S.; Schmidt, R., 2014:
Magnetization transfer ratio relates to cognitive impairment in normal elderly

Martens, M.H.; Lambregts, D.M.J.; Papanikolaou, N.; Heijnen, L.A.; Riedl, R.G.; zur Hausen, A.; Maas, M.; Beets, G.L.; Beets-Tan, R.G.H., 2014:
Magnetization transfer ratio: a potential biomarker for the assessment of postradiation fibrosis in patients with rectal cancer

Mangia, S.; De Martino, F.; Liimatainen, T.; Garwood, M.; Michaeli, S., 2012:
Magnetization transfer using inversion recovery during off-resonance irradiation

Waerenborgh, Jão.C.; Tsipis, E.V.; Pereira, L.C.J.; Avdeev, M.; Naumovich, E.N.; Kharton, V.V., 2011:
Magnetization, Mössbauer and isothermal dilatometric behavior of oxidized YBa(Co,Fe)4O(7+δ)

Zayets, V.; Saito, H.; Yuasa, S.; Ando, K., 2010:
Magnetization-dependent loss in an (Al,Ga)As optical waveguide with an embedded Fe micromagnet

Cukur, T.; Shimakawa, A.; Yu, H.; Hargreaves, B.A.; Hu, B.S.; Nishimura, D.G.; Brittain, J.H., 2011:
Magnetization-prepared IDEAL bSSFP: a flow-independent technique for noncontrast-enhanced peripheral angiography

Liu, W., 2008:
Magnetized Ekman layer and Stewartson layer in a magnetized Taylor-Couette flow

Hiebel, S.; Grossmann, T.; Kiselev, D.; Schmiedeskamp, J.; Gusev, Y.; Heil, W.; Karpuk, S.; Krimmer, J.; Otten, E.W.; Salhi, Z., 2010:
Magnetized boxes for housing polarized spins in homogeneous fields

Selig, B., 2011:
Magnetized in Phoenix: a nurse manager's perspective on the National Magnet Conference

Anderson, M.; Hirschmann, E.W.; Lehner, L.; Liebling, S.L.; Motl, P.M.; Neilsen, D.; Palenzuela, C.; Tohline, J.E., 2008:
Magnetized neutron-star mergers and gravitational-wave signals

Zhang, S.; Xiong, Y.; Bartal, G.; Yin, X.; Zhang, X., 2011:
Magnetized plasma for reconfigurable subdiffraction imaging

Ebrahimi, M.; Ebrahimitalab, A.; Es'haghi, Z.; Mohammadinejad, A., 2015:
Magnetized silane-coupling agent KH-570 based solid-phase extraction followed by gas chromatography-flame ionization detection to determine venlafaxine in human hair and aqueous environmental samples

Al-Nimer, M.S.M.; Neda, F.Sh.; Lateef, Z.W.Abdul., 2010:
Magnetized solutions altered the absorbance of tramadol hcl: uv-spectrophotometer study

Hadad, Y.; Steinberg, B.Z., 2011:
Magnetized spiral chains of plasmonic ellipsoids for one-way optical waveguides

Salhi, A.; Lehner, T.; Godeferd, F.; Cambon, C., 2012:
Magnetized stratified rotating shear waves

Brown, P.; Khan, A.M.; Armstrong, J.P.K.; Perriman, A.W.; Butts, C.P.; Eastoe, J., 2013:
Magnetizing DNA and proteins using responsive surfactants

Kählert, H.; Carstensen, J.; Bonitz, M.; Löwen, H.; Greiner, F.; Piel, A., 2012:
Magnetizing a complex plasma without a magnetic field

Elfimov, I.S.; Rusydi, A.; Csiszar, S.I.; Hu, Z.; Hsieh, H.H.; Lin, H-J.; Chen, C.T.; Liang, R.; Sawatzky, G.A., 2007:
Magnetizing oxides by substituting nitrogen for oxygen

Wacker, R.; Ceyhan, B.; Alhorn, P.; Schueler, D.; Lang, C.; Niemeyer, C.M., 2007:
Magneto immuno-PCR: a novel immunoassay based on biogenic magnetosome nanoparticles

Castilho, M.de.Souza.; Laube, T.; Yamanaka, H.; Alegret, S.; Pividori, M.I., 2012:
Magneto immunoassays for Plasmodium falciparum histidine-rich protein 2 related to malaria based on magnetic nanoparticles

Kergaravat, S.V.; Beltramino, L.; Garnero, N.; Trotta, L.; Wagener, M.; Fabiano, S.N.; Pividori, M.Isabel.; Hernandez, S.R., 2014:
Magneto immunofluorescence assay for diagnosis of celiac disease

Laube, T.; Kergaravat, S.V.; Fabiano, S.N.; Hernández, S.R.; Alegret, S.; Pividori, M.I., 2011:
Magneto immunosensor for gliadin detection in gluten-free foodstuff: towards food safety for celiac patients

Liébana, S.; Lermo, A.; Campoy, S.; Barbé, J.; Alegret, S.; Pividori, Mía.Isabel., 2009:
Magneto immunoseparation of pathogenic bacteria and electrochemical magneto genosensing of the double-tagged amplicon

Park, Y.Woo., 2010:
Magneto resistance of polyacetylene nanofibers

Chaix, L.; de Brion, S.; Petit, S.; Ballou, R.; Regnault, L-P.; Ollivier, J.; Brubach, J-B.; Roy, P.; Debray, J.; Lejay, P.; Cano, A.; Ressouche, E.; Simonet, V., 2014:
Magneto- to electroactive transmutation of spin waves in ErMnO3

Datta, S.; Marty, L.; Cleuziou, J.P.; Tilmaciu, C.; Soula, B.; Flahaut, E.; Wernsdorfer, W., 2011:
Magneto-Coulomb effect in carbon nanotube quantum dots filled with magnetic nanoparticles

Qian, S.; Bau, H.H., 2010:
Magneto-Hydrodynamics Based Microfluidics

Uchida, Y.; Suzuki, K.; Tamura, R., 2012:
Magneto-LC effects in hydrogen-bonded all-organic radical liquid crystal

Hall, E.H., 1883:
Magneto-Motive Force

Faugeras, C.; Amado, M.; Kossacki, P.; Orlita, M.; Kühne, M.; Nicolet, A.A.L.; Latyshev, Y.I.; Potemski, M., 2011:
Magneto-Raman scattering of graphene on graphite: electronic and phonon excitations

Lafrentz, M.; Brunne, D.; Kaminski, B.; Pavlov, V.V.; Rodina, A.V.; Pisarev, R.V.; Yakovlev, D.R.; Bakin, A.; Bayer, M., 2013:
Magneto-Stark effect of excitons as the origin of second harmonic generation in ZnO

Haider, S.; Hrbek, A.; Xu, Y., 2008:
Magneto-acousto-electrical tomography: a potential method for imaging current density and electrical impedance

Park, S-Hyun.; Kim, J.; Koo, T-Hoi., 2010:
Magneto-acupuncture stimuli effects on ultraweak photon emission from hands of healthy persons

den Dulk, R.C.; Schmidt, K.A.; Sabatté, Génola.; Liébana, S.; Prins, M.W.J., 2013:
Magneto-capillary valve for integrated purification and enrichment of nucleic acids and proteins

Mao, X.; Egli, R.; Petersen, N.; Hanzlik, M.; Liu, X., 2015:
Magneto-chemotaxis in sediment: first insights

Kitagawa, Y.; Miyatake, T.; Ishii, K., 2012:
Magneto-chiral dichroism of artificial light-harvesting antenna

Kitagawa, Y.; Segawa, H.; Ishii, K., 2012:
Magneto-chiral dichroism of organic compounds

Mendoza, M.; Ujevic, S., 2012:
Magneto-conductance fingerprints of purely quantum states in the open quantum dot limit

Yu, X.; He, R.; Li, S.; Cai, B.; Zhao, L.; Liao, L.; Liu, W.; Zeng, Q.; Wang, H.; Guo, S-Shang.; Zhao, X-Zhong., 2014:
Magneto-controllable capture and release of cancer cells by using a micropillar device decorated with graphite oxide-coated magnetic nanoparticles

Li, Q.; Tang, D.; Tang, J.; Su, B.; Chen, G.; Wei, M., 2011:
Magneto-controlled electrochemical immunosensor for direct detection of squamous cell carcinoma antigen by using serum as supporting electrolyte

Tang, J.; Tang, D.; Niessner, R.; Chen, G.; Knopp, D., 2011:
Magneto-controlled graphene immunosensing platform for simultaneous multiplexed electrochemical immunoassay using distinguishable signal tags

Maleyev, S.V., 2009:
Magneto-elastic interaction in cubic helimagnets with B20 structure

Suárez, J.R.; Vallejo, E.; Navarro, O.; Avignon, M., 2009:
Magneto-elastic phase transitions in one-dimensional systems

Yue, K.; Guduru, R.; Hong, J.; Liang, P.; Nair, M.; Khizroev, S., 2013:
Magneto-electric nano-particles for non-invasive brain stimulation

Lovesey, S.W., 2014:
Magneto-electric operators in neutron scattering from electrons

Cottraux, J.; Lecaignard, F.; Yao, S-N.; De Mey-Guillard, C.; Haour, F.; Delpuech, C.; Servan-Schreiber, D., 2016:
Magneto-encephalographic (MEG) brain recordings during traumatic memory recall in women with post-traumatic stress disorder: A pilot study

Tan, E.Lim.; Ong, K.Ghee., 2012:
Magneto-harmonic pressure sensor for biomedical applications

Liu, T.; Gong, X.; Xu, Y.; Xuan, S., 2015:
Magneto-induced stress enhancing effect in a colloidal suspension of paramagnetic and superparamagnetic particles dispersed in a ferrofluid medium

Syms, R.R.A.; Young, I.R.; Ahmad, M.M.; Taylor-Robinson, S.D.; Rea, M., 2014:
Magneto-inductive catheter receiver for magnetic resonance imaging

Zviagin, A.A.; Nikolaenko, E.A., 2009:
Magneto-laser therapy of chronic gastritis in children and adolescents

Zheng, G.P.; Zhuang, H.L., 2008:
Magneto-mechanical coupling behavior of defective single-walled carbon nanotubes

Zagrai, A.N., 2009:
Magneto-mechanical impedance of metallic structures

Franke, T.; Schmid, L.; Weitz, D.A.; Wixforth, A., 2010:
Magneto-mechanical mixing and manipulation of picoliter volumes in vesicles

Williams, B.P.; Tomczyk, S., 1996:
Magneto-optic Doppler analyzer: a new instrument to measure mesopause winds

Mertelj, A.; Osterman, N.; Lisjak, D.; Copič, M., 2014:
Magneto-optic and converse magnetoelectric effects in a ferromagnetic liquid crystal

Cole, J.H.; Lagakos, N.; Jarzynski, J.; Bucaro, J.A., 1981:
Magneto-optic coupling coefficient for fiber interferometric sensors

Maystre, F.; Bertholds, A., 1989:
Magneto-optic current sensor using a helical-fiber Fabry-Perot resonator

Zu, P.; Chan, C.Chiu.; Siang, L.Wen.; Jin, Y.; Zhang, Y.; Fen, L.Hwi.; Chen, L.; Dong, X., 2011:
Magneto-optic fiber Sagnac modulator based on magnetic fluids

Zhou, Z-Fei.; Cheng, Y-Hua., 2008:
Magneto-optic microscope for visually detecting subsurface defects

Jonsson, F.; Flytzanis, C., 2007:
Magneto-optic parametric oscillation

Visnovsky, S.; Postava, K.; Yamaguchi, T., 2001:
Magneto-optic polar Kerr and Faraday effects in periodic multilayers

Takagi, H.; Nakamura, K.; Goto, T.; Lim, P.B.; Inoue, M., 2014:
Magneto-optic spatial light modulator with submicron-size magnetic pixels for wide-viewing-angle holographic displays

Khatir, M.; Granpayeh, N., 2014:
Magneto-optic surface plasmon polariton modulator based on refractive index variations

Feuerstein, M.; Reichl, T.; Vogel, J.; Schneider, A.; Feussner, H.; Navabi, N., 2007:
Magneto-optic tracking of a flexible laparoscopic ultrasound transducer for laparoscope augmentation

Moon, H.S.; Kim, J.B.; Park, J.D.; Kwon, B.K.; Cho, H.; Lee, H.S., 1996:
Magneto-optic trap of Rb atoms with an injection-seeded laser that operates at two frequencies

Savchuk, A.I.; Stolyarchuk, I.D.; Makoviy, V.V.; Savchuk, O.A., 2014:
Magneto-optical Faraday rotation of semiconductor nanoparticles embedded in dielectric matrices

Huang, C-Chia.; Su, C-Hao.; Liao, M-Yi.; Yeh, C-Sheng., 2009:
Magneto-optical FeGa2O4 nanoparticles as dual-modality high contrast efficacy T2 imaging and cathodoluminescent agents

Tang, T.; Qin, J.; Xie, J.; Deng, L.; Bi, L., 2014:
Magneto-optical Goos-Hänchen effect in a prism-waveguide coupling structure

Bräuer, Börn.; Fronk, M.; Lehmann, D.; Zahn, D.R.T.; Salvan, G., 2009:
Magneto-optical Kerr effect spectroscopy--a sensitive tool for investigating the molecular orientation in organic semiconductor films

Kataja, M.; van Dijken, S., 2011:
Magneto-optical Kerr effect susceptometer for the analysis of magnetic domain wall dynamics

Ho, Y-Hung.; Chiu, Y-Huang.; Lin, D-Hone.; Chang, C-Peng.; Lin, M-Fa., 2010:
Magneto-optical Selection Rules in Bilayer Bernal Graphene

Park, S.Yoon.; Handa, H.; Sandhu, A., 2010:
Magneto-optical biosensing platform based on light scattering from self-assembled chains of functionalized rotating magnetic beads

Sakhnini, L.; Dairi, M.; Manaa, H., 2009:
Magneto-optical characteristics of human sperms: normal and deformed

Pascu, O.; Caicedo, Jé.Manuel.; Fontcuberta, J.; Herranz, G.; Roig, A., 2010:
Magneto-optical characterization of colloidal dispersions. Application to nickel nanoparticles

Smigaj, W.; Romero-Vivas, J.; Gralak, B.; Magdenko, L.; Dagens, Béatrice.; Vanwolleghem, M., 2010:
Magneto-optical circulator designed for operation in a uniform external magnetic field

Linzon, Y.; Rutkowska, K.A.; Malomed, B.A.; Morandotti, R., 2009:
Magneto-optical control of light collapse in bulk Kerr media

Raizen, M.G.; Budker, D.; Rochester, S.M.; Narevicius, J.; Narevicius, E., 2014:
Magneto-optical cooling of atoms

Wilde, J.P.; Heanue, J.F.; Tselikov, A.A.; Hurst, J.E., 2008:
Magneto-optical disk drive technology using multiple fiber-coupled flying optical heads. Part I. System design and performance

Torrado, J.F.; González-Díaz, J.B.; González, Mía.U.; García-Martín, A.; Armelles, G., 2010:
Magneto-optical effects in interacting localized and propagating surface plasmon modes

Rubio-Roy, M.; Vlasin, O.; Pascu, O.; Caicedo, J.M.; Schmidt, M.; Goñi, A.R.; Tognalli, N.G.; Fainstein, A.; Roig, A.; Herranz, G., 2012:
Magneto-optical enhancement by plasmon excitations in nanoparticle/metal structures

Lu, Y.H.; Cho, M.H.; Kim, J.B.; Lee, G.J.; Lee, Y.P.; Rhee, J.Y., 2008:
Magneto-optical enhancement through gyrotropic gratings

Zu, P.; Chan, C.Chiu.; Lew, W.Siang.; Jin, Y.; Zhang, Y.; Liew, H.Fen.; Chen, L.Han.; Wong, W.Chang.; Dong, X., 2012:
Magneto-optical fiber sensor based on magnetic fluid

Zang, H.; Xu, Z.; Hu, B., 2010:
Magneto-optical investigations on the formation and dissociation of intermolecular charge-transfer complexes at donor-acceptor interfaces in bulk-heterojunction organic solar cells

Flexman, J.A.; Minoshima, S.; Kim, Y.; Cross, D.J., 2007:
Magneto-optical labeling of fetal neural stem cells for in vivo MRI tracking

Karapetyan, H.; Hücker, M.; Gu, G.D.; Tranquada, J.M.; Fejer, M.M.; Xia, J.; Kapitulnik, A., 2012:
Magneto-optical measurements of a cascade of transitions in superconducting La1.875Ba0.125CuO4 single crystals

Boudon, J.; Paris, Jérémy.; Bernhard, Y.; Popova, E.; Decréau, R.A.; Millot, N., 2014:
Magneto-optical nanomaterials: a SPIO-phthalocyanine scaffold built step-by-step towards bimodal imaging

Prado, S.J.; Villegas-Lelovsky, L.; Alcalde, A.M.; Lopez-Richard, V.; Marques, G.E., 2012:
Magneto-optical properties in IV-VI lead-salt semimagnetic nanocrystals

Freitas Neto, E.S.; Dantas, N.O.; Lourenço, S.A.; Teodoro, Márcio.D.; Marques, G.E., 2012:
Magneto-optical properties of Cd(1-x)Mn(x)S nanoparticles: influences of magnetic doping, Mn2+ ions localization, and quantum confinement

Goto, T.; Onbaşlı, M.C.; Ross, C.A., 2013:
Magneto-optical properties of cerium substituted yttrium iron garnet films with reduced thermal budget for monolithic photonic integrated circuits

Armelles, G.; Cebollada, A.; García-Martín, A.; Montero-Moreno, J.M.; Waleczek, M.; Nielsch, K., 2012:
Magneto-optical properties of core-shell magneto-plasmonic Au-Co(x)Fe(3 - x)O4 nanowires

Coronado, E.; Makarewicz, M.; Prieto-Ruiz, J.P.; Prima-García, H.; Romero, F.M., 2012:
Magneto-optical properties of electrodeposited thin films of the molecule-based magnet Cr(5.5) (CN)(12) ·11.5H(2) O

Pashchenko, M.I.; Bedarev, V.A.; Merenkov, D.N.; Savina, Y.O.; Pashchenko, V.O.; Gnatchenko, S.L.; Bezmaternykh, L.N.; Temerov, V.L., 2014:
Magneto-optical properties of terbium iron borate

De Luca, M.; Polimeni, A.; Fonseka, H.A.; Meaney, A.J.; Christianen, P.C.M.; Maan, J.C.; Paiman, S.; Tan, H.H.; Mura, F.; Jagadish, C.; Capizzi, M., 2014:
Magneto-optical properties of wurtzite-phase InP nanowires

Aurich, K.; Glöckl, G.; Nagel, S.; Weitschies, W., 2009:
Magneto-optical relaxation measurements of functionalized nanoparticles as a novel biosensor

Dmitriev, V.; Portela, G.; Batista, R., 2014:
Magneto-optical resonator switches in two-dimensional photonic crystals: geometry, symmetry, scattering matrices, and two examples

Andreev, I.V.; Tchougréeff, A.L.; Kögerler, P.; Rai, R.C., 2014:
Magneto-optical response of 3d-decorated polyoxomolybdates with ε-Keggin structure

Villaume, A.; Antonevici, A.; Bourgault, D.; Leggeri, J.P.; Porcar, L.; Villard, C., 2008:
Magneto-optical setup for in situ strain and transport measurements on superconductors

Baranov, D.G.; Vinogradov, A.P.; Lisyansky, A.A.; Strelniker, Y.M.; Bergman, D.J., 2013:
Magneto-optical spaser

Helsen, M.; Gangwar, A.; Vansteenkiste, A.; Van Waeyenberge, B., 2014:
Magneto-optical spectrum analyzer

Cook, P.J.; Zhang, J.; Liu, Y.; Guan, W.; Wang, N.; Qin, L.; Shen, T.H.; Jones, G.A.; Grundy, P.J., 2012:
Magneto-optical stokes polarimetry and nanostructured magnetic materials

Baziljevich, M.; Barness, D.; Sinvani, M.; Perel, E.; Shaulov, A.; Yeshurun, Y., 2012:
Magneto-optical system for high speed real time imaging

Ostapenko, T.; Zhang, C.; Sprunt, S.N.; Jákli, A.; Gleeson, J.T., 2011:
Magneto-optical technique for detecting the biaxial nematic phase

Feuerstein, M.; Reichl, T.; Vogel, J.; Traub, J.; Navab, N., 2009:
Magneto-optical tracking of flexible laparoscopic ultrasound: model-based online detection and correction of magnetic tracking errors

Stuhl, B.K.; Sawyer, B.C.; Wang, D.; Ye, J., 2008:
Magneto-optical trap for polar molecules

Ohadi, H.; Himsworth, M.; Xuereb, Aé.; Freegarde, T., 2010:
Magneto-optical trapping and background-free imaging for atoms near nanostructured surfaces

Hanssen, J.L.; Hill, S.B.; Orloff, J.; McClelland, J.J., 2008:
Magneto-optical-trap-based, high brightness ion source for use as a nanoscale probe

Berzhansky, V.; Mikhailova, T.; Shaposhnikov, A.; Prokopov, A.; Karavainikov, A.; Kotov, V.; Balabanov, D.; Burkov, V., 2013:
Magneto-optics of nanoscale Bi:YIG films

Raikher, Y.L.; Stepanov, V.I., 2008 :
Magneto-orientational behavior of a suspension of antiferromagnetic particles

Meyer, M.; Raikher, Y.L.; Sandre, O.; Bée, A.; Cabuil, V.; Dupuis, V.; Licinio, P.; Perzynski, R., 2009:
Magneto-orientational properties of ionically stabilized aqueous dispersions of Ni(OH)2 nanoplatelets

Sedrakyan, T.A.; Raikh, M.E., 2008:
Magneto-oscillations due to electron-electron interactions in the ac conductivity of a two-dimensional electron gas

Bykov, A.T.; Konovalova, M.P.; Khodasevich, L.S., 2010:
Magneto-peloidotherapy and hydrogen sulfide baths for the correction of dyslipidemia and immune inflammation in patients with ischemic heart disease during resort treatment

Qu, M.; Mallidi, S.; Mehrmohammadi, M.; Truby, R.; Homan, K.; Joshi, P.; Chen, Y-Sheng.; Sokolov, K.; Emelianov, S., 2011:
Magneto-photo-acoustic imaging

Amendola, V.; Scaramuzza, S.; Litti, L.; Meneghetti, M.; Zuccolotto, G.; Rosato, A.; Nicolato, E.; Marzola, P.; Fracasso, G.; Anselmi, C.; Pinto, M.; Colombatti, M., 2015:
Magneto-plasmonic Au-Fe alloy nanoparticles designed for multimodal SERS-MRI-CT imaging

David, S.; Polonschii, C.; Luculescu, C.; Gheorghiu, M.; Gáspár, S.; Gheorghiu, E., 2015:
Magneto-plasmonic biosensor with enhanced analytical response and stability

Urries, I.; Muñoz, C.; Gomez, L.; Marquina, C.; Sebastian, V.; Arruebo, M.; Santamaria, J., 2016:
Magneto-plasmonic nanoparticles as theranostic platforms for magnetic resonance imaging, drug delivery and NIR hyperthermia applications

Hu, B.; Tao, J.; Zhang, Y.; Wang, Q.Jie., 2014:
Magneto-plasmonics in graphene-dielectric sandwich

Ridi, F.; Bonini, M.; Baglioni, P., 2013:
Magneto-responsive nanocomposites: preparation and integration of magnetic nanoparticles into films, capsules, and gels

Czaun, Mós.; Hevesi, László.; Takafuji, M.; Ihara, H., 2009:
Magneto-responsive organogels prepared through surface-initiated atom transfer radical polymerization on iron nanoparticles

Zhou, Y-Ling.; Wu, M-Chun.; Zeng, M-Hua.; Liang, H., 2010:
Magneto-structural correlation in a metamagnetic cobalt(II)-based pillared trilayer motif constructed by mixed pyridyl-type carboxylate ligands

Pan, F.; Wang, Z-Ming.; Gao, S., 2007:
Magneto-structural correlation in a series of bimetallic alternating chain complexes of [CrIIIL(CN)4]n[MnIII(salpn)]n.nsolvents (L=2,2'-bipy or 9,10-phen, salpn=substituted salicyldehyde, solvents=water and methanol)

Sasmal, S.; Hazra, S.; Kundu, P.; Majumder, S.; Aliaga-Alcalde, Núria.; Ruiz, E.; Mohanta, S., 2010:
Magneto-structural correlation studies and theoretical calculations of a unique family of single end-to-end azide-bridged Ni(II)4 cyclic clusters

Fujita, W.; Kikuchi, K., 2008:
Magneto-structural correlations in a 1,3,2-dithiazolyl radical crystal, BBDTAGaBr4: structure and magnetic properties of its three polymorphs

Zhang, Y-Quan.; Luo, C-Lin.; Wu, X-Bao.; Wang, B-Wu.; Gao, S., 2014:
Magneto-structural correlations in a family of Fe(II)Re(IV)(CN)2 single-chain magnets: density functional theory and ab initio calculations

Gómez, Vónica.; Corbella, M.; Roubeau, O.; Teat, S.J., 2011:
Magneto-structural correlations in dinuclear Mn(III) compounds with formula [{Mn(L)(NN)}(μ-O)(μ-2-RC6H4COO)2{Mn(L')(NN)}]n+

Nadeem, M.Arif.; Craig, D.J.; Bircher, R.; Stride, J.A., 2010:
Magneto-structural correlations of a three-dimensional Mn based metal-organic framework

Błoński, P.; Hafner, Jürgen., 2011:
Magneto-structural properties and magnetic anisotropy of small transition-metal clusters: a first-principles study

Williams, F.; Chen, G-Fei.; Mattar, S.M.; Scudder, P.H.; Trieber, D.A.; Saven, J.G.; Whritenour, D.C.; Cimino, P.; Barone, V., 2009:
Magneto-structural relationships for radical cation and neutral pyridinophane structures with intrabridgehead nitrogen atoms. An integrated experimental and quantum mechanical study

Pannu, A.Pal.Singh.; Kapoor, P.; Hundal, G.; Kapoor, R.; Corbella, M.; Aliaga-Alcalde, Núria.; Hundal, M.Singh., 2011:
Magneto-structural studies of two new cobalt(II)-N,N-diisobutylisonicotinamide compounds: [CoLCl2]n and [Co(L)2(H2O)4][CoLBr3]2·2H2O

Cuevas, A.; Kremer, C.; Suescun, L.; Mombrú, A.W.; Lloret, F.; Julve, M.; Faus, J., 2010:
Magneto-structural studies on heterobimetallic malonate-bridged M(II)Re(IV) complexes (M = Mn, Co, Ni and Cu)

Ranjan, R.; Garg, R.; Senyshyn, A.; Hegde, M.S.; Ehrenberg, H.; Boysen, H., 2009:
Magneto-structural study of a Cr-doped CaRuO(3)

Okazawa, A.; Nagaichi, Y.; Nogami, T.; Ishida, T., 2008:
Magneto-structure relationship in copper(II) and nickel(II) complexes chelated with stable tert-butyl 5-phenyl-2-pyridyl nitroxide and related radicals

Neal, A.T.; Liu, H.; Gu, J.; Ye, P.D., 2013:
Magneto-transport in MoS2: phase coherence, spin-orbit scattering, and the hall factor

Amado, M.; Diez, E.; Rossella, F.; Bellani, V.; López-Romero, D.; Maude, D.K., 2012:
Magneto-transport of graphene and quantum phase transitions in the quantum Hall regime

Jiang, L.; Zheng, Y.; Li, H.; Shen, H., 2010:
Magneto-transport properties of gapped graphene

Quang, H.D.; Huu, C.X.; Oh, S.K.; Dang, V.S.; Sinh, N.H.; Yu, S.C., 2006:
Magneto-transport properties of magnetic tunnelling transistors at low and room temperatures

López-Alcaraz, P.; Catherall, A.T.; Hill, R.J.A.; Leaper, M.C.; Swift, M.R.; King, P.J., 2007:
Magneto-vibratory separation of glass and bronze granular mixtures immersed in a paramagnetic liquid

Martin, V.; Drochon, Aès.; Fokapu, O.; Gerbeau, J-Frédéric., 2012:
MagnetoHemoDynamics in the aorta and electrocardiograms

Zaitsev, B.D.; Ermolenko, A.V.; Fedorenko, V.A., 2008:
Magnetoacoustic SAW interaction in YIG films

Hu, G.; He, B., 2012:
Magnetoacoustic imaging of electrical conductivity of biological tissues at a spatial resolution better than 2 mm

Hu, G.; Cressman, E.; He, B., 2011:
Magnetoacoustic imaging of human liver tumor with magnetic induction

Hu, G.; He, B., 2012:
Magnetoacoustic imaging of magnetic iron oxide nanoparticles embedded in biological tissues with microsecond magnetic stimulation

Davis, J.P.; Choi, H.; Pollanen, J.; Halperin, W.P., 2008:
Magnetoacoustic spectroscopy in superfluid 3He-B

Xia, R.; Li, X.; He, B., 2007:
Magnetoacoustic tomographic imaging of electrical impedance with magnetic induction

Zhou, L.; Li, X.; Zhu, S.; He, B., 2011:
Magnetoacoustic tomography with magnetic induction (MAT-MI) for breast tumor imaging: numerical modeling and simulation

Li, X.; He, B., 2010:
Magnetoacoustic tomography with magnetic induction (MAT-MI) for electrical conductivity imaging

Mariappan, L.; Hu, G.; He, B., 2014:
Magnetoacoustic tomography with magnetic induction for high-resolution bioimepedance imaging through vector source reconstruction under the static field of MRI magnet

Ma, Q.; He, B., 2008:
Magnetoacoustic tomography with magnetic induction: a rigorous theory

Mariappan, L.; He, B., 2013:
Magnetoacoustic tomography with magnetic induction: bioimepedance reconstruction through vector source imaging

Hong, S.; Jung, Y.; Yen, R.; Chan, H.Fai.; Leong, K.W.; Truskey, G.A.; Zhao, X., 2014:
Magnetoactive sponges for dynamic control of microfluidic flow patterns in microphysiological systems

Rangaraju, N.; Peters, J.A.; Wessels, B.W., 2010:
Magnetoamplification in a bipolar magnetic junction transistor

Suwa, M.; Watarai, H., 2011:
Magnetoanalysis of micro/nanoparticles: a review

Campuzano, S.; Torrente-Rodríguez, R.M.; López-Hernández, E.; Conzuelo, F.; Granados, R.; Sánchez-Puelles, Jé.M.; Pingarrón, Jé.M., 2017:
Magnetobiosensors based on viral protein p19 for microRNA determination in cancer cells and tissues

Caballero-Flores, R.; Bingham, N.S.; Phan, M.H.; Torija, M.A.; Leighton, C.; Franco, V.; Conde, A.; Phan, T.L.; Yu, S.C.; Srikanth, H., 2015:
Magnetocaloric effect and critical behavior in Pr0.5Sr0.5MnO3: an analysis of the validity of the Maxwell relation and the nature of the phase transitions

Fitta, M.; Bałanda, M.; Pełka, R.; Konieczny, P.; Pinkowicz, D.; Sieklucka, B., 2013:
Magnetocaloric effect and critical behaviour in Mn2-pyridazine-[Nb(CN)8] molecular compound under press

Zhang, Q.; Thota, S.; Guillou, F.; Padhan, P.; Hardy, V.; Wahl, A.; Prellier, W., 2011:
Magnetocaloric effect and improved relative cooling power in (La(0.7)Sr(0.3)MnO(3)/SrRuO(3)) superlattices

Planes, A.; Mañosa, Lís.; Acet, M., 2009:
Magnetocaloric effect and its relation to shape-memory properties in ferromagnetic Heusler alloys

Zhao, J-Peng.; Zhao, R.; Yang, Q.; Hu, B-Wen.; Liu, F-Chen.; Bu, X-He., 2013:
Magnetocaloric effect and slow magnetic relaxation in two only azido bridged ferromagnetic tetranuclear metal clusters

Tan, X.; Chai, P.; Thompson, C.M.; Shatruk, M., 2013:
Magnetocaloric effect in AlFe2B2: toward magnetic refrigerants from earth-abundant elements

Fitta, M.; Bałanda, M.; Mihalik, M.; Pełka, R.; Pinkowicz, D.; Sieklucka, B.; Zentkova, M., 2012:
Magnetocaloric effect in M-pyrazole-[Nb(CN)(8)] (M = Ni, Mn) molecular compounds

Serantes, D.; Baldomir, D.; Pereiro, M.; Botana, J.; Prida, V.M.; Hernando, B.; Arias, J.E.; Rivas, J., 2010:
Magnetocaloric effect in magnetic nanoparticle systems: how to choose the best magnetic material?

Li, J.; Qu, Y.; Ren, J.; Yuan, W.; Shi, D., 2013:
Magnetocaloric effect in magnetothermally-responsive nanocarriers for hyperthermia-triggered drug release

Das, S.; Dey, T.K., 2006:
Magnetocaloric effect in potassium doped lanthanum manganite perovskites prepared by a pyrophoric method

Wang, P.; Shannigrahi, S.; Yakovlev, N.L.; Hor, T.S.Andy., 2013:
Magnetocaloric effect of a series of remarkably isostructural intermetallic [Ni(II)3Ln(III)] cubane aggregates

Parish, M.M.; Littlewood, P.B., 2008:
Magnetocapacitance in nonmagnetic composite media

Parish, M.M., 2014:
Magnetocapacitance without magnetism

Brisinda, D.; Venuti, A.; Sorbo, A.R.; Fenici, R., 2015:
Magnetocardiographic demonstration of complex ventricular preexcitation resulting in ablation failure

Horigome, H.; Iwashita, H.; Yoshinaga, M.; Shimizu, W., 2007:
Magnetocardiographic demonstration of torsade de pointes in a fetus with congenital long QT syndrome

Weismüller, P., 1997:
Magnetocardiographic diagnostic of late fields. Current state and future perspectives

Mäkijärvi, M., 1997:
Magnetocardiography and cardiac risk

Goernig, M.; Liehr, M.; Tute, C.; Schlosser, M.; Haueisen, J.; Figulla, H.R.; Leder, U., 2008:
Magnetocardiography based spatiotemporal correlation analysis is superior to conventional ECG analysis for identifying myocardial injury

Strasburger, J.F.; Cheulkar, B.; Wakai, R.T., 2008:
Magnetocardiography for fetal arrhythmias

Agarwal, R.; Saini, A.; Alyousef, T.; Umscheid, C.A., 2013:
Magnetocardiography for the diagnosis of coronary artery disease: a systematic review and meta-analysis

Chaĭkovskiĭ, I.; Boĭchak, M.; Sosnitskiĭ, V.; Miasnikov, G.; Rykhlik, E.; Sosnitskaia, T.; Frolov, I.; Budnik, V., 2012:
Magnetocardiography in clinical practice: algorithms and technologies for data analysis

Leithäuser, B.; Park, J-Wun.; Hill, P.; Lam, Y-Yat.; Jung, F., 2014:
Magnetocardiography in patients with acute chest pain and bundle branch block

Van Hare, G.F., 2014:
Magnetocardiography in the diagnosis of fetal arrhythmias

Cuneo, B.F.; Strasburger, J.F.; Wakai, R.T., 2008:
Magnetocardiography in the evaluation of fetuses at risk for sudden cardiac death before birth

Fenici, R.; Brisinda, D., 2007:
Magnetocardiography provides non-invasive three-dimensional electroanatomical imaging of cardiac electrophysiology

Wyllie, R.; Kauer, M.; Smetana, G.S.; Wakai, R.T.; Walker, T.G., 2012:
Magnetocardiography with a modular spin-exchange relaxation-free atomic magnetometer array

Das, B.; Cuneo, B.F.; Ovadia, M.; Strasburger, J.F.; Johnsrude, C.; Wakai, R.T., 2008:
Magnetocardiography-guided management of an unusual case of isoimmune complete atrioventricular block complicated by ventricular tachycardia

Kong, J.; Kong, M.; Zhang, X.; Chen, L.; An, L., 2013:
Magnetoceramics from the bulk pyrolysis of polysilazane cross-linked by polyferrocenylcarbosilanes with hyperbranched topology

Monakhov, K.Yu.; López, X.; Speldrich, M.; van Leusen, J.; Kögerler, P.; Braunstein, P.; Poblet, J.M., 2014:
Magnetochemical complexity of hexa- and heptanuclear wheel complexes of late-3d ions supported by N,O-donor pyridyl-methanolate ligands

Hatfield, W.E., 1978:
Magnetochemistry

Carlin, R.L., 1985:
Magnetochemistry of Ions in the 4A2 Electronic State

Ribó, J.M., 2012:
Magnetochiral effects in amphiphilic porphyrin J-aggregates

van Wüllen, L., 2013:
Magnetochirality-induced asymmetric synthesis

Horng, H.E.; Hong, C.Y.; Yeung, W.B.; Yang, H.C., 2008:
Magnetochromatic effects in magnetic fluid thin films

Kim, J.; Choi, S-Eun.; Lee, H.; Kwon, S., 2013:
Magnetochromatic microactuators for a micropixellated color-changing surface

Ge, J.; Lee, H.; He, L.; Kim, J.; Lu, Z.; Kim, H.; Goebl, J.; Kwon, S.; Yin, Y., 2010:
Magnetochromatic microspheres: rotating photonic crystals

Chen, X.; Li, L.; Sun, X.; Liu, Y.; Luo, B.; Wang, C.; Bao, Y.; Xu, H.; Peng, H., 2011:
Magnetochromatic polydiacetylene by incorporation of Fe3O4 nanoparticles

He, L.; Janner, M.; Lu, Q.; Wang, M.; Ma, H.; Yin, Y., 2015:
Magnetochromatic thin-film microplates

Siponen, M.I.; Adryanczyk, Géraldine.; Ginet, N.; Arnoux, P.; Pignol, D., 2013:
Magnetochrome: a c-type cytochrome domain specific to magnetotatic bacteria

Andreev, A.V., 2008:
Magnetoconductance of carbon nanotube p-n junctions

Rut, G.; Rycerz, A., 2014:
Magnetoconductance of the Corbino disk in graphene: chiral tunneling and quantum interference in the bilayer case

Bao, W.; Zhao, Z.; Zhang, H.; Liu, G.; Kratz, P.; Jing, L.; Velasco, J.; Smirnov, D.; Lau, C.Ning., 2011:
Magnetoconductance oscillations and evidence for fractional quantum Hall states in suspended bilayer and trilayer graphene

Dunford, J.L.; Dhirani, A-Amin., 2008:
Magnetoconductance oscillations at a nanoparticle film-superconductor interface: a means for probing flux penetration depth

Nguyen, T.D.; Gautam, B.R.; Ehrenfreund, E.; Vardeny, Z.V., 2011:
Magnetoconductance response in unipolar and bipolar organic diodes at ultrasmall fields

Blums, E.; Mezulis, A.; Kronkalns, G., 2008:
Magnetoconvective heat transfer from a cylinder under the influence of a nonuniform magnetic field

Šipr, O.; Bornemann, S.; Ebert, H.; Minár, J., 2015:
Magnetocrystalline anisotropy energy for adatoms and monolayers on non-magnetic substrates: where does it come from?

Řezníček, R.; Chlan, V.; Štěpánková, H.; Novák, P.; Maryško, M., 2012:
Magnetocrystalline anisotropy of magnetite

Yan, L.; Wang, M.; Raju, N.P.; Epstein, A.; Tan, L-Seng.; Urbas, A.; Chiang, L.Y.; Hu, B., 2012:
Magnetocurrent of charge-polarizable C60-diphenylaminofluorene monoadduct-derived magnetic nanocomposites

Filipcsei, G.; Zrínyi, M., 2011:
Magnetodeformation effects and the swelling of ferrogels in a uniform magnetic field

Singh, K.; Maignan, A.; Simon, C.; Kumar, S.; Martin, C.; Lebedev, O.; Turner, S.; Van Tendeloo, G., 2012:
Magnetodielectric CuCr0.5V0.5O2: an example of a magnetic and dielectric multiglass

Mufti, N.; Nugroho, A.A.; Blake, G.R.; Palstra, T.T.M., 2011:
Magnetodielectric coupling in frustrated spin systems: the spinels MCr₂O₄ (M = Mn, Co and Ni)

Padhan, P.; Leclair, P.; Gupta, A.; Subramanian, M.A.; Srinivasan, G., 2009:
Magnetodielectric effect in Bi(2)NiMnO(6)-La(2)NiMnO(6) superlattices

Zhukov, A.; Blanco, J.M.; Ipatov, M.; Zhukova, V., 2012:
Magnetoelastic contribution in domain wall propagation of micrometric wires

Giot, M.; Chapon, L.C.; Androulakis, J.; Green, M.A.; Radaelli, P.G.; Lappas, A., 2008:
Magnetoelastic coupling and symmetry breaking in the frustrated antiferromagnet alpha-NaMnO2

Musfeldt, J.L.; Vergara, L.I.; Brinzari, T.V.; Lee, C.; Tung, L.C.; Kang, J.; Wang, Y.J.; Schlueter, J.A.; Manson, J.L.; Whangbo, M-H., 2009:
Magnetoelastic coupling through the antiferromagnet-to-ferromagnet transition of quasi-two-dimensional [Cu(HF2)(pyz)2]BF4 using infrared spectroscopy

Chatterji, T.; Iles, G.N.; Ouladdiaf, B.; Hansen, T.C., 2011:
Magnetoelastic effect in MF2 (M = Mn, Fe, Ni) investigated by neutron powder diffraction

Chatterji, T.; Hansen, T.C., 2011:
Magnetoelastic effects in Jahn-Teller distorted CrF₂ and CuF₂ studied by neutron powder diffraction

Chatterji, T.; Ouladdiaf, B.; Henry, P.F.; Bhattacharya, D., 2012:
Magnetoelastic effects in multiferroic YMnO3

Fennell, T.; Kenzelmann, M.; Roessli, B.; Mutka, H.; Ollivier, J.; Ruminy, M.; Stuhr, U.; Zaharko, O.; Bovo, L.; Cervellino, A.; Haas, M.K.; Cava, R.J., 2014:
Magnetoelastic excitations in the pyrochlore spin liquid Tb2Ti2O7

Vlaisavljevich, E.; Janka, L.P.; Ong, K.Ghee.; Rajachar, R.M., 2011:
Magnetoelastic materials as novel bioactive coatings for the control of cell adhesion

Benito, L.; Ciria, M.; Fraile, A.; Fort, D.; Abell, J.S.; Arnaudas, J.I., 2007:
Magnetoelastic nature of the dodecagonal anisotropy in holmium metal

Paul, I., 2011:
Magnetoelastic quantum fluctuations and phase transitions in the iron superconductors

Moreno, M.C.Iglesias.; Gil-Loyzaga, P.; Gómez, F.Rodríguez.; Carcedo, C.Franco.; Fernández, J.González.; Martínez, E.Pina.; Grande, A.Hernando.; Broto, J.Poch., 2007:
Magnetoelastic sensors as a new tool for laryngeal research

Vlaisavljevich, E.; Holmes, H.R.; Tan, E.L.; Qian, Z.; Trierweiler, S.; Ong, K.G.; Rajachar, R.M., 2013:
Magnetoelastic vibrational biomaterials for real-time monitoring and modulation of the host response

Ruff, J.P.C.; Islam, Z.; Clancy, J.P.; Ross, K.A.; Nojiri, H.; Matsuda, Y.H.; Dabkowska, H.A.; Dabkowski, A.D.; Gaulin, B.D., 2010:
Magnetoelastics of a spin liquid: X-ray diffraction studies of Tb2Ti2O7 in pulsed magnetic fields

Wang, J.; Santana, J.A.Colón.; Wu, N.; Karunakaran, C.; Wang, J.; Dowben, P.A.; Binek, C., 2014:
Magnetoelectric Fe2TeO6 thin films

Nénert, G.; Palstra, T.T.M., 2009:
Magnetoelectric and multiferroic properties of ternary copper chalcogenides Cu(2)M(II)M(IV)S(4)

Wang, Z.; Zhang, Y.; Wang, Y.; Li, Y.; Luo, H.; Li, J.; Viehland, D., 2014:
Magnetoelectric assisted 180° magnetization switching for electric field addressable writing in magnetoresistive random-access memory

Gao, J.; Shen, Y.; Wang, Y.; Finkel, P.; Li, J.; Viehland, D., 2011:
Magnetoelectric bending-mode structure based on Metglas/Pb(Zr,Ti)O₃ fiber laminates

De Lorenci, V.A.; Pereira, D.D., 2011:
Magnetoelectric birefringence as a unique effect in isotropic media

Bauer, U.; Przybylski, M.; Kirschner, Jürgen.; Beach, G.S.D., 2012:
Magnetoelectric charge trap memory

Szasz, J.; Kiss, M.; Santa, I.; Szatmari, S.; Kukhlevsky, S.V., 2013:
Magnetoelectric confinement and stabilization of Z pinch in a soft-x-ray Ar(+8) laser

Kim, H.K.D.; Schelhas, L.T.; Keller, S.; Hockel, J.L.; Tolbert, S.H.; Carman, G.P., 2013:
Magnetoelectric control of superparamagnetism

Vaz, C.A.F.; Hoffman, J.; Ahn, C.H.; Ramesh, R., 2010:
Magnetoelectric coupling effects in multiferroic complex oxide composite structures

Günaydın-Şen, Ö.; Chen, P.; Fosso-Tande, J.; Allen, T.L.; Cherian, J.; Tokumoto, T.; Lahti, P.M.; McGill, S.; Harrison, R.J.; Musfeldt, J.L., 2014:
Magnetoelectric coupling in 4,4'-stilbenedinitrene

Lu, X.; Kim, Y.; Goetze, S.; Li, X.; Dong, S.; Werner, P.; Alexe, M.; Hesse, D., 2011:
Magnetoelectric coupling in ordered arrays of multilayered heteroepitaxial BaTiO₃/CoFe₂O₄ nanodots

Maisuradze, A.; Shengelaya, A.; Berger, H.; Djokić, D.M.; Keller, H., 2012:
Magnetoelectric coupling in single crystal Cu2OSeO3 studied by a novel electron spin resonance technique

Pelle, B.; Bitard, H.; Bailly, G.; Robilliard, C., 2011:
Magnetoelectric directional nonreciprocity in gas-phase molecular nitrogen

Kambe, T.; Fukada, Y.; Kano, J.; Nagata, T.; Okazaki, H.; Yokoya, T.; Wakimoto, S.; Kakurai, K.; Ikeda, N., 2013:
Magnetoelectric effect driven by magnetic domain modification in LuFe2O4

Yamaguchi, Y.; Nakano, T.; Nozue, Y.; Kimura, T., 2012:
Magnetoelectric effect in an XY-like spin glass system Ni{x}Mn{1-x}TiO{3}

Zhang, Z.; Chen, C.; Guo, W., 2009:
Magnetoelectric effect in graphene nanoribbons on substrates via electric bias control of exchange splitting

Bliokh, K.Y.; Kivshar, Y.S.; Nori, F., 2014:
Magnetoelectric effects in local light-matter interactions

Ojanen, T., 2013:
Magnetoelectric effects in superconducting nanowires with Rashba spin-orbit coupling

Geng, Y.; Wu, W., 2014:
Magnetoelectric force microscopy based on magnetic force microscopy with modulated electric field

Burton, J.D.; Tsymbal, E.Y., 2012:
Magnetoelectric interfaces and spin transport

Scott, J.F., 2009:
Magnetoelectric memories--a disruptive technology?

Taniguchi, K.; Abe, N.; Ohtani, S.; Arima, T., 2009:
Magnetoelectric memory effect of the nonpolar phase with collinear spin structure in multiferroic MnWO4

Mathur, N.D.; Scott, J.F., 2014:
Magnetoelectric phenomena and devices

Dai, J.; Lu, H-Zhou.; Yang, C.L.; Shen, S-Qing.; Zhang, F-Chun.; Cui, X., 2010:
Magnetoelectric photocurrent generated by direct interband transitions in InGaAs/InAlAs two-dimensional electron gas

Essin, A.M.; Moore, J.E.; Vanderbilt, D., 2009:
Magnetoelectric polarizability and axion electrodynamics in crystalline insulators

Ackermann, M.; Lorenz, T.; Becker, P.; Bohatý, L., 2014:
Magnetoelectric properties of A2[FeCl5(H2O)] with A = K, Rb, Cs

Wojdeł, J.C.; Iñiguez, J., 2010:
Magnetoelectric response of multiferroic BiFeO3 and related materials from first-principles calculations

Zhou, L.; Tang, X.M.; Huang, C.P.; Zhang, Y.; Zhu, Y.Y., 2012:
Magnetoelectrically coupled polariton excitation in a plasmonic crystal composed of nanorod dimers

Liu, X.; Liu, S.; Han, M-Geun.; Zhao, L.; Deng, H.; Li, J.; Zhu, Y.; Krusin-Elbaum, L.; O'Brien, S., 2013:
Magnetoelectricity in CoFe2O4 nanocrystal-P(VDF-HFP) thin films

Sawyer, B.C.; Lev, B.L.; Hudson, E.R.; Stuhl, B.K.; Lara, M.; Bohn, J.L.; Ye, J., 2007:
Magnetoelectrostatic trapping of ground state OH molecules

Gómez, C.; Hornero, R.; Fernández, A.; Abasolo, D.; Escudero, J.; López, M., 2007:
Magnetoencephalogram background activity analysis in Alzheimer's disease patients using auto mutual information

Escudero, J.; Hornero, R.; Abásolo, D.; Fernández, A.; Poza, Jús., 2007:
Magnetoencephalogram blind source separation and component selection procedure to improve the diagnosis of Alzheimer's disease patients

Yoshinaga, H.; Kobayashi, K.; Hoshida, T.; Kinugasa, K.; Ohtuska, Y., 2008:
Magnetoencephalogram in a postoperative case with a large skull defect

Wilenius, J.; Mäkelä, J.P.; Lyytinen, J.; Paetau, A.; Palomäki, M.; Pekkonen, E., 2010:
Magnetoencephalographic Abnormalities in Creutzfeldt-Jakob Disease: A Case Report

Sandberg, K.; Barnes, G.Robert.; Rees, G.; Overgaard, M., 2014:
Magnetoencephalographic activity related to conscious perception is stable within individuals across years but not between individuals

Marzetti, L.; Di Lanzo, C.; Zappasodi, F.; Chella, F.; Raffone, A.; Pizzella, V., 2014:
Magnetoencephalographic alpha band connectivity reveals differential default mode network interactions during focused attention and open monitoring meditation

Tanaka, N.; Thiele, E.A.; Madsen, J.R.; Bourgeois, B.F.; Stufflebeam, S.M., 2010:
Magnetoencephalographic analysis in patients with vagus nerve stimulator

Shih, J.J.; Weisend, M.P.; Sanders, J.A.; Lee, R.R., 2011:
Magnetoencephalographic and magnetic resonance spectroscopy evidence of regional functional abnormality in mesial temporal lobe epilepsy

Fukao, K.; Inoue, Y.; Yagi, K., 2010 :
Magnetoencephalographic characteristics of psychosis in temporal lobe epilepsy

Fukao, K.; Inoue, Y.; Yagi, K., 2010:
Magnetoencephalographic correlates of different types of aura in temporal lobe epilepsy

Bridson, N.C.; Muthukumaraswamy, S.D.; Singh, K.D.; Wilding, E.L., 2009:
Magnetoencephalographic correlates of processes supporting long-term memory judgments

Kotini, A.; Mavraki, E.; Anninos, P.; Piperidou, H.; Prassopoulos, P., 2010:
Magnetoencephalographic findings in two cases of juvenile myoclonus epilepsy

Kanal, E.Y.; Sun, M.; Ozkurt, T.E.; Jia, W.; Sclabassi, R., 2010:
Magnetoencephalographic imaging of deep corticostriatal network activity during a rewards paradigm

Tarapore, P.E.; Martino, J.; Guggisberg, A.G.; Owen, J.; Honma, S.M.; Findlay, A.; Berger, M.S.; Kirsch, H.E.; Nagarajan, S.S., 2013:
Magnetoencephalographic imaging of resting-state functional connectivity predicts postsurgical neurological outcome in brain gliomas

Schleger, F.; Landerl, K.; Muenssinger, J.; Draganova, R.; Reinl, M.; Kiefer-Schmidt, I.; Weiss, M.; Wacker-Gußmann, A.; Huotilainen, M.; Preissl, H., 2014:
Magnetoencephalographic signatures of numerosity discrimination in fetuses and neonates

Hege, M.A.; Preissl, H.; Stingl, K.T., 2015:
Magnetoencephalographic signatures of right prefrontal cortex involvement in response inhibition

Sakurai, K.; Tanaka, N.; Kamada, K.; Takeuchi, F.; Takeda, Y.; Koyama, T., 2007:
Magnetoencephalographic studies of focal epileptic activity in three patients with epilepsy suggestive of Lennox-Gastaut syndrome

Ishizu, T.; Amemiya, K.; Yumoto, M.; Kojima, S., 2010 :
Magnetoencephalographic study of the neural responses in body perception

Miki, K.; Kakigi, R., 2014:
Magnetoencephalographic study on facial movements

Nishimura, T.; Uratani, Y.; Okayasu, T.; Nakagawa, S.; Hosoi, H., 2014:
Magnetoencephalographic study on forward suppression by ipsilateral, contralateral, and binaural maskers

Tormenti, M.; Krieger, D.; Puccio, A.M.; McNeil, M.R.; Schneider, W.; Okonkwo, D.O., 2013:
Magnetoencephalographic virtual recording: a novel diagnostic tool for concussion

Schwartz, E.Simon.; Edgar, J.Christopher.; Gaetz, W.C.; Roberts, T.P.L., 2010:
Magnetoencephalography

Stefan, H.; Nakasato, N.; Papanicolaou, A.C., 2012:
Magnetoencephalography

Proudfoot, M.; Woolrich, M.W.; Nobre, A.C.; Turner, M.R., 2015:
Magnetoencephalography

Ioannides, A.A., 2008:
Magnetoencephalography (MEG)

Paetau, R.; Mohamed, I.S., 2014:
Magnetoencephalography (MEG) and other neurophysiological investigations

Oshino, S.; Kato, A.; Saitoh, Y.; Yoshimine, T., 2007:
Magnetoencephalography (MEG) and transcranial magnetic stimulation (TMS)

Stefan, H.; Rampp, S.; Knowlton, R.C., 2011:
Magnetoencephalography adds to the surgical evaluation process

Poon, T.L.; Cheung, F.C.; Lui, C.H.T., 2010:
Magnetoencephalography and its role in evaluation for epilepsy surgery

Funke, M.; Constantino, T.; Van Orman, C.; Rodin, E., 2009:
Magnetoencephalography and magnetic source imaging in epilepsy

Rojas, D.C.; Arciniegas, D.B.; Teale, P.D.; Reite, M.L., 2007:
Magnetoencephalography and magnetic source imaging: technology overview and applications in psychiatric neuroimaging

Schnitzler, A.; Hirschmann, J., 2013:
Magnetoencephalography and neuromodulation

Zamrini, E.; Maestu, F.; Pekkonen, E.; Funke, M.; Makela, J.; Riley, M.; Bajo, R.; Sudre, G.; Fernandez, A.; Castellanos, N.; Del Pozo, F.; Stam, C.J.; van Dijk, B.W.; Bagic, A.; Becker, J.T., 2011:
Magnetoencephalography as a putative biomarker for Alzheimer's disease

Kakisaka, Y.; Wang, Z.I.; Enatsu, R.; Dubarry, A-Sophie.; Mosher, J.C.; Alexopoulos, A.V.; Burgess, R.C., 2014:
Magnetoencephalography correlate of EEG POSTS (positive occipital sharp transients of sleep)

Dehghani, N.; Cash, S.S.; Rossetti, A.O.; Chen, C.Chuan.; Halgren, E., 2011:
Magnetoencephalography demonstrates multiple asynchronous generators during human sleep spindles

Leistner, S.; Sander, T.H.; Wuebbeler, G.; Link, A.; Elster, C.; Curio, G.; Trahms, L.; Mackert, B-Marcel., 2010:
Magnetoencephalography discriminates modality-specific infraslow signals less than 0.1 Hz

Anninos, P.; Kotini, A.; Tsalkidis, A.; Dipla, V.; Chatzimichael, A., 2010:
Magnetoencephalography evaluation of febrile seizures in young children

Gaetz, W.; Otsubo, H.; Pang, E.W., 2008:
Magnetoencephalography for clinical pediatrics: the effect of head positioning on measurement of somatosensory-evoked fields

Poch-Broto, Jín.; Bhathal, B.; Iglesias, M.Cruz.; Santiuste, M.; Fernández, A.; Ortiz, Tás.; Gil-Loyzaga, P., 2008:
Magnetoencephalography for research of auditory cortex

Bennett-Back, O.; Ochi, A.; Widjaja, E.; Nambu, S.; Kamiya, A.; Go, C.; Chuang, S.; Rutka, J.T.; Drake, J.; Snead, O.Carter.; Otsubo, H., 2014:
Magnetoencephalography helps delineate the extent of the epileptogenic zone for surgical planning in children with intractable epilepsy due to porencephalic cyst/encephalomalacia

Paetau, R., 2009:
Magnetoencephalography in Landau-Kleffner syndrome

Carrette, E.; De Tiège, X.; Op De Beeck, M.; De Herdt, V.; Meurs, A.; Legros, B.; Raedt, R.; Deblaere, K.; Van Roost, D.; Bourguignon, M.; Goldman, S.; Boon, P.; Van Bogaert, P.; Vonck, K., 2011:
Magnetoencephalography in epilepsy patients carrying a vagus nerve stimulator

Alarcón, G.; Agirre-Arrizubieta, Z., 2011:
Magnetoencephalography in epilepsy: is it time for EMEG?

Williams, M.A.; Sachdev, P.S., 2011:
Magnetoencephalography in neuropsychiatry: ready for application?

Mäkelä, J.P.; Forss, N.; Jääskeläinen, J.; Kirveskari, E.; Korvenoja, A.; Paetau, R., 2008:
Magnetoencephalography in neurosurgery

Kim, H.; Chung, C.Kee.; Hwang, H., 2013:
Magnetoencephalography in pediatric epilepsy

Kim, H.; Lim, B.Chan.; Jeong, W.; Kim, J.Sic.; Chae, J-Hee.; Kim, K.Joong.; Chung, C.Kee.; Hwang, Y.Seung.; Hwang, H., 2012:
Magnetoencephalography in pediatric lesional epilepsy surgery

Rampp, S.; Stefan, H., 2007:
Magnetoencephalography in presurgical epilepsy diagnosis

Lee, R.R.; Huang, M., 2015:
Magnetoencephalography in the diagnosis of concussion

Anderson, C.T.; Carlson, C.E.; Li, Z.; Raghavan, M., 2014:
Magnetoencephalography in the preoperative evaluation for epilepsy surgery

Koptelova, A.M.; Arkhipova, N.A.; Golovteev, A.L.; Chadaev, V.A.; Grinenko, O.A.; Kozlova, A.B.; Novikova, S.I.; Stepanenko, A.Iu.; Melikian, A.G.; Stroganova, T.A., 2014:
Magnetoencephalography in the presurgical evaluation of patients with drug-resistant epilepsy

Foley, E.; Cerquiglini, A.; Cavanna, A.; Nakubulwa, M.Angela.; Furlong, P.Lawrence.; Witton, C.; Seri, S., 2014:
Magnetoencephalography in the study of epilepsy and consciousness

van Pelt, S.; Boomsma, D.I.; Fries, P., 2012:
Magnetoencephalography in twins reveals a strong genetic determination of the peak frequency of visually induced γ-band synchronization

Jeong, W.; Chung, C.Kee.; Kim, J.Sic., 2013:
Magnetoencephalography interictal spike clustering in relation with surgical outcome of cortical dysplasia

Bauer, M.; Baker, C.; Barham, R.; Hensel, J.; Kling, C.; L, T.; Koch, C.; Sander, T., 2013:
Magnetoencephalography of Deep Lying Auditory Sources Using Acoustical Devices for Infra- and Ultrasound Stimulation

Boeijinga, P.H., 1999:
Magnetoencephalography of cognitive responses A sensitive method for the detection of age-related changes

Alem, O.; Benison, A.M.; Barth, D.S.; Kitching, J.; Knappe, S., 2015:
Magnetoencephalography of epilepsy with a microfabricated atomic magnetrode

Zhang, Y.; Zhang, N.; Han, Z.; Wang, Y.; Wang, C.; Chen, H.; Wang, Y.; Zhang, X., 2010:
Magnetoencephalography of language: new approaches to understanding the cortical organization of Chinese processing

Velmurugan, J.; Sinha, S.; Satishchandra, P., 2014:
Magnetoencephalography recording and analysis

Kakisaka, Y.; Gupta, A.; Enatsu, R.; Wang, Z.I.; Alexopoulos, A.V.; Mosher, J.C.; Dubarry, A-Sophie.; Hino-Fukuyo, N.; Burgess, R.C., 2013:
Magnetoencephalography reveals a unique neurophysiological profile of focal-onset epileptic spasms

Brang, D.; Hubbard, E.M.; Coulson, S.; Huang, M.; Ramachandran, V.S., 2011:
Magnetoencephalography reveals early activation of V4 in grapheme-color synesthesia

Doesburg, S.M.; Ribary, U.; Herdman, A.T.; Moiseev, A.; Cheung, T.; Miller, S.P.; Poskitt, K.J.; Weinberg, H.; Whitfield, M.F.; Synnes, A.; Grunau, R.E., 2011:
Magnetoencephalography reveals slowing of resting peak oscillatory frequency in children born very preterm

Lau, S.; Flemming, L.; Haueisen, J., 2015:
Magnetoencephalography signals are influenced by skull defects

Popescu, M.; Blunt, S.D.; Chan, T., 2010:
Magnetoencephalography source localization using the source affine image reconstruction (SAFFIRE) algorithm

Cepeda, I.L.; Grunau, R.E.; Weinberg, H.; Herdman, A.T.; Cheung, T.; Liotti, M.; Amir, A.; Synnes, A.; Whitfield, M., 2007:
Magnetoencephalography study of brain dynamics in young children born extremely preterm

Kato, Y.; Muramatsu, T.; Kato, M.; Shibukawa, Y.; Shintani, M.; Mimura, M., 2012:
Magnetoencephalography study of right parietal lobe dysfunction of the evoked mirror neuron system in antipsychotic-free schizophrenia

Sander, T.H.; Preusser, J.; Mhaskar, R.; Kitching, J.; Trahms, L.; Knappe, S., 2012:
Magnetoencephalography with a chip-scale atomic magnetometer

Albert, G.W.; Ibrahim, G.M.; Otsubo, H.; Ochi, A.; Go, C.Y.; Snead, O.Carter.; Drake, J.M.; Rutka, J.T., 2015:
Magnetoencephalography-guided resection of epileptogenic foci in children

Singh, S.P., 2014:
Magnetoencephalography: Basic principles

Hari, R.; Salmelin, R., 2012:
Magnetoencephalography: From SQUIDs to neuroscience. Neuroimage 20th anniversary special edition

Braun, C., 2008:
Magnetoencephalography: a method for the study of brain function in neurosurgery

Braeutigam, S., 2013:
Magnetoencephalography: fundamentals and established and emerging clinical applications in radiology

Sukoyan, M.A.; Khrapov, E.A.; Voronina, E.N.; Boyarskikh, U.A.; Gubanov, A.I.; Itin, V.I.; Magaeva, A.A.; Nayden, E.P.; Terekhova, O.G.; Filipenko, M.L., 2014:
Magnetofection of human somatic cells with magnetite and cobalt ferrospinel nanoparticles

Prosen, L.; Prijic, S.; Music, B.; Lavrencak, J.; Cemazar, M.; Sersa, G., 2014:
Magnetofection: a reproducible method for gene delivery to melanoma cells

Plank, C.; Rosenecker, J., 2010:
Magnetofection: the use of magnetic nanoparticles for nucleic acid delivery

Plank, C.; Vlaskou, D.; Schillinger, U.; Mykhaylyk, O., 2012:
MagnetofectionTM platform: from magnetic nanoparticles to novel nucleic acid therapeutics

Lin, G.; Makarov, D.; Medina-Sánchez, M.; Guix, M.; Baraban, L.; Cuniberti, G.; Schmidt, O.G., 2015:
Magnetofluidic platform for multidimensional magnetic and optical barcoding of droplets

Valverde, J.M.; Espin, M.J.; Quintanilla, M.A.S.; Castellanos, A., 2009:
Magnetofluidization of fine magnetite powder

Hasserodt, J.; Kolanowski, J.Lukasz.; Touti, F., 2013:
Magnetogenesis in water induced by a chemical analyte

Touti, F.; Maurin, P.; Hasserodt, J., 2014:
Magnetogenesis under physiological conditions with probes that report on (bio-)chemical stimuli

Shields, C.Wyatt.; Livingston, C.E.; Yellen, B.B.; López, G.P.; Murdoch, D.M., 2014:
Magnetographic array for the capture and enumeration of single cells and cell pairs

Rothmayer, A.P., 2014:
Magnetohydrodynamic channel flows with weak transverse magnetic fields

Hsieh, T.H.; Keh, H.J., 2010:
Magnetohydrodynamic effects on a charged colloidal sphere with arbitrary double-layer thickness

Salhi, A.; Lehner, T.; Cambon, C., 2010:
Magnetohydrodynamic instabilities in rotating and precessing sheared flows: an asymptotic analysis

King, J.D.; Makowski, M.A.; Holcomb, C.T.; Allen, S.L.; Hill, D.N.; La Haye, R.J.; Turco, F.; Petty, C.C.; Van Zeeland, M.A.; Rhodes, T.L.; Meyer, W.H.; Geer, R.; Morse, E.C., 2011:
Magnetohydrodynamic interference with the edge pedestal motional Stark effect diagnostic on DIII-D

Guazzotto, L.; Betti, R., 2011:
Magnetohydrodynamic mechanism for pedestal formation

Hsieh, T.H.; Keh, H.J., 2013:
Magnetohydrodynamic motion of a colloidal sphere with self-electrochemical surface reactions in a spherical cavity

Hammond, A.L., 1972:
Magnetohydrodynamic power: more efficient use of coal

Guarendi, A.N.; Chandy, A.J., 2014:
Magnetohydrodynamic simulations of hypersonic flow over a cylinder using axial- and transverse-oriented magnetic dipoles

Webster, A.J.; Gimblett, C.G., 2009:
Magnetohydrodynamic stability of a toroidal plasma's separatrix

Rappazzo, A.F.; Velli, M., 2011:
Magnetohydrodynamic turbulent cascade of coronal loop magnetic fields

Eleftheriou, M.; Lazarides, N.; Tsironis, G.P., 2008:
Magnetoinductive breathers in metamaterials

Avdoshin, V.P.; Andriukhin, M.I.; Mikhaĭlenkov, T.G., 2009:
Magnetolaser and enzyme therapy in combined treatment of patients with chronic bacterial prostatitis

Kucheriavyĭ, A.M.; Ponomarenko, G.N.; Kovlen, D.V., 2007:
Magnetolaser therapy of patients with bronchial asthma in combination with essential hypertension

Pasek, Jław.; Pasek, T.; Sieroń, A., 2014:
Magnetoledtherapy in the treatment of wounds after surgical procedures of the knee joint

Bakandritsos, A.; Fatourou, A.G.; Fatouros, D.G., 2013:
Magnetoliposomes and their potential in the intelligent drug-delivery field

Soenen, S.J.; Velde, G.Vande.; Ketkar-Atre, A.; Himmelreich, U.; De Cuyper, M., 2015:
Magnetoliposomes as magnetic resonance imaging contrast agents

Fattahi, H.; Laurent, S.; Liu, F.; Arsalani, N.; Vander Elst, L.; Muller, R.N., 2011:
Magnetoliposomes as multimodal contrast agents for molecular imaging and cancer nanotheragnostics

García-Jimeno, S.; Escribano, E.; Queralt, J.; Estelrich, J., 2011:
Magnetoliposomes prepared by reverse-phase followed by sequential extrusion: characterization and possibilities in the treatment of inflammation

Skouras, A.; Mourtas, S.; Markoutsa, E.; De Goltstein, M-Christine.; Wallon, C.; Catoen, S.; Antimisiaris, S.G., 2012:
Magnetoliposomes with high USPIO entrapping efficiency, stability and magnetic properties

Soenen, S.J.H.; Hodenius, M.; De Cuyper, M., 2009:
Magnetoliposomes: versatile innovative nanocolloids for use in biotechnology and biomedicine

Bardea, A.; Baram, A.; Tatikonda, A.Kumar.; Naaman, R., 2010:
Magnetolithographic patterning of inner walls of a tube: a new dimension in microfluidics and sequential microreactors

Bardea, A.; Naaman, R., 2009:
Magnetolithography: from bottom-up route to high throughput

Gross, L.; Schlittler, R.R.; Meyer, G.; Allenspach, R., 2010:
Magnetologic devices fabricated by nanostencil lithography

Okuyama, R.; Eto, M.; Hyuga, H., 2011:
Magnetoluminescence from trion and biexciton in type-II quantum dot

Smolensky, E.D.; Peterson, K.L.; Weitz, E.A.; Lewandowski, C.; Pierre, Vérie.C., 2014:
Magnetoluminescent light switches--dual modality in DNA detection

Aizawa, Y.; Kudo, Y., 2011:
Magnetometric evaluation of toxicities of chemicals to the lungs and cells

Usher, A.; Elliott, M., 2009:
Magnetometry of low-dimensional electron and hole systems

Higbie, J.M.; Rochester, S.M.; Patton, B.; Holzlöhner, R.; Bonaccini Calia, D.; Budker, D., 2011:
Magnetometry with mesospheric sodium

Rondin, L.; Tetienne, J-P.; Hingant, T.; Roch, J-F.; Maletinsky, P.; Jacques, V., 2014:
Magnetometry with nitrogen-vacancy defects in diamond

Oldenburg, A.; Toublan, F.; Suslick, K.; Wei, A.; Boppart, S., 2005:
Magnetomotive contrast for in vivo optical coherence tomography

Kim, J.; Oh, J.; Choi, B., 2010:
Magnetomotive laser speckle imaging

John, R.; Boppart, S.A., 2011:
Magnetomotive molecular nanoprobes

Crecea, V.; Oldenburg, A.L.; Liang, X.; Ralston, T.S.; Boppart, S.A., 2010:
Magnetomotive nanoparticle transducers for optical rheology of viscoelastic materials

Crecea, V.; Ahmad, A.; Boppart, S.A., 2014:
Magnetomotive optical coherence elastography for microrheology of biological tissues

Chhetri, R.K.; Carpenter, J.; Superfine, R.; Randell, S.H.; Oldenburg, A.L., 2010:
Magnetomotive optical coherence elastography for relating lung structure and function in Cystic Fibrosis

Ahmad, A.; Kim, J.; Sobh, N.A.; Shemonski, N.D.; Boppart, S.A., 2014:
Magnetomotive optical coherence elastography using magnetic particles to induce mechanical waves

Kim, J.; Ahmad, A.; Marjanovic, M.; Chaney, E.J.; Li, J.; Rasio, J.; Hubler, Z.; Spillman, D.; Suslick, K.S.; Boppart, S.A., 2014:
Magnetomotive optical coherence tomography for the assessment of atherosclerotic lesions using αvβ3 integrin-targeted microspheres

Wei, C-wei.; Xia, J.; Pelivanov, I.; Jia, C.; Huang, S-Wen.; Hu, X.; Gao, X.; O'Donnell, M., 2014:
Magnetomotive photoacoustic imaging: in vitro studies of magnetic trapping with simultaneous photoacoustic detection of rare circulating tumor cells

Furdea, A.; Eswaran, H.; Wilson, J.D.; Preissl, H.; Lowery, C.L.; Govindan, R.B., 2010:
Magnetomyographic recording and identification of uterine contractions using Hilbert-wavelet transforms

Lau, K.Y.; Campbell, J.C.; Stone, J., 1979:
Magnetooptic bounce-cavity modulator

Hepner, G.; Desormiere, B.; Castera, J.P., 1975:
Magnetooptic effects in garnet thin film wave-guides

Visnovsky, S.; Lopusnik, R.; Bauer, M.; Bok, J.; Fassbender, J.; Hillebrands, B., 2001:
Magnetooptic ellipsometry in multilayers at arbitrary magnetization

Murakami, T.; Taira, K.; Mori, M., 1986:
Magnetooptic erasable disk memory with two optical heads

Weis, R.S.; Gaylord, T.K., 1989:
Magnetooptic multilayered memory structure with a birefringent superstrate: a rigorous analysis

Iwanaga, T.; Sugaya, S.; Inada, H.; Nomura, T., 1988:
Magnetooptic recording readout performance improvement

Okamura, Y.; Ishida, M.; Yamamoto, S., 1984:
Magnetooptic rib waveguides in YIG: an experiment

Shirasaki, M.; Wada, F.; Takamatsu, H.; Nakajima, H.; Asama, K., 1984:
Magnetooptical 2x2 switch for single-mode fibers

Tomkowicz, Z.; Ostrovsky, S.; Foro, S.; Calvo-Perez, V.; Haase, W., 2012:
Magnetooptical and structural investigations of five dimeric cobalt(II) complexes mimicking metalloenzyme active sites

Papp, A.; Harms, H., 1980:
Magnetooptical current transformer. 1: Principles

Aulich, H.; Beck, W.; Douklias, N.; Harms, H.; Papp, A.; Schneider, H., 1980:
Magnetooptical current transformer. 2: Components

Harms, H.; Papp, A., 1980:
Magnetooptical current transformer. 3: Measurements

Villaverde, A.B.; Vasconcellos, E.C., 1982:
Magnetooptical dispersion of Hoya glasses: AOT-5, AOT-44B, and FR-5

Brown, F.C.; Laramore, G., 1967:
Magnetooptical experiments on broad absorption bands in solids

Domański, A.; Maślanka, R., 1981:
Magnetooptical modulator with crystal in a separated auxiliary field

Harms, H.; Papp, A.; Kempter, K., 1976:
Magnetooptical properties of index-gradient optical fibers

Kaplan, R., 1967:
Magnetooptical studies of solids using fourier transform spectroscopy

Mao, Y.; Macleod, H.A.; Balasubramanian, K., 1989:
Magnetooptical thin film optical constants measurement using surface plasmon resonances

Hatakeyama, I.; Hirono, S.; Nonaka, K.; Ishii, O., 1986:
Magnetooptical thin film reading head

Andriola Silva, A.K.; Di Corato, R.; Gazeau, F.; Pellegrino, T.; Wilhelm, C., 2013:
Magnetophoresis at the nanoscale: tracking the magnetic targeting efficiency of nanovectors

Murthy, S.Narasimha.; Sammeta, S.M.; Bowers, C., 2011:
Magnetophoresis for enhancing transdermal drug delivery: Mechanistic studies and patch design

Sammeta, S.M.; Repka, M.A.; Narasimha Murthy, S., 2011:
Magnetophoresis in combination with chemical enhancers for transdermal drug delivery

Zhu, G-Ping.; Hejiazan, M.; Huang, X.; Nguyen, N-Trung., 2014:
Magnetophoresis of diamagnetic microparticles in a weak magnetic field

Gurova, N.Iu.; Babina, L.M., 2008:
Magnetophoresis of glutaminic acid and magnesium sulfate in rehabilitation of children with cerebral palsy

Lim, J.; Yeap, S.Pin.; Leow, C.Hoe.; Toh, P.Yi.; Low, S.Chun., 2015:
Magnetophoresis of iron oxide nanoparticles at low field gradient: the role of shape anisotropy

Lim, J.; Lanni, C.; Evarts, E.R.; Lanni, F.; Tilton, R.D.; Majetich, S.A., 2011:
Magnetophoresis of nanoparticles

Pshenichnikov, A.F.; Ivanov, A.S., 2013:
Magnetophoresis of particles and aggregates in concentrated magnetic fluids

Pshenichnikov, A.F.; Elfimova, E.A.; Ivanov, A.O., 2011:
Magnetophoresis, sedimentation, and diffusion of particles in concentrated magnetic fluids

Mizuno, M.; Yamada, M.; Mitamura, R.; Ike, K.; Toyama, K.; Seki, M., 2014:
Magnetophoresis-integrated hydrodynamic filtration system for size- and surface marker-based two-dimensional cell sorting

Kwon, D.; Joo, J.; Lee, J.; Park, K-Hwan.; Jeon, S., 2014:
Magnetophoretic chromatography for the detection of pathogenic bacteria with the naked eye

Kang, J.H.; Park, J-Kyun., 2007 :
Magnetophoretic continuous purification of single-walled carbon nanotubes from catalytic impurities in a microfluidic device

Suwa, M.; Watarai, H., 2008:
Magnetophoretic evaluation of interfacial adsorption of dysprosium(III) on a single microdroplet

Lee, K.; Lee, S.Yeun.; Na, J-Geol.; Jeon, S.Goo.; Praveenkumar, R.; Kim, D-Myung.; Chang, W-Seok.; Oh, Y-Kwan., 2014:
Magnetophoretic harvesting of oleaginous Chlorella sp. by using biocompatible chitosan/magnetic nanoparticle composites

Faivre, M.; Gelszinnis, R.; Degouttes, Jérôme.; Terrier, N.; Rivière, C.; Ferrigno, R.; Deman, A-Laure., 2014:
Magnetophoretic manipulation in microsystem using carbonyl iron-polydimethylsiloxane microstructures

Kashevsky, B.E.; Zholud, A.M.; Kashevsky, S.B., 2012:
Magnetophoretic trajectory tracking magnetometry: a new technique for assessing magnetic properties of submagnetic microparticles and cells

Hale, C.; Darabi, J., 2014:
Magnetophoretic-based microfluidic device for DNA isolation

Caicedo, Jé.Manuel.; Pascu, O.; López-García, Mín.; Canalejas, Víctor.; Blanco, A.; López, C.; Fontcuberta, J.; Roig, A.; Herranz, G., 2011:
Magnetophotonic response of three-dimensional opals

Ishigaki, A.; Kobori, Y.; Murai, H., 2009:
Magnetophotoselection in the spin-polarized triplet state radical-ion pair formed in the photo-induced solvent-mediated electron transfer reaction from N,N-diethylaniline to xanthone in viscous solution

Krishtopenko, S.S., 2013:
Magnetoplasmon excitations from integer-filled Landau levels in narrow-gap quantum wells

Lodewijks, K.; Maccaferri, Nò.; Pakizeh, T.; Dumas, R.K.; Zubritskaya, I.; Akerman, J.; Vavassori, P.; Dmitriev, A., 2015:
Magnetoplasmonic design rules for active magneto-optics

Poumirol, J.M.; Yu, W.; Chen, X.; Berger, C.; de Heer, W.A.; Smith, M.L.; Ohta, T.; Pan, W.; Goerbig, M.O.; Smirnov, D.; Jiang, Z., 2013:
Magnetoplasmons in quasineutral epitaxial graphene nanoribbons

Hartmann, P.; Donkó, Zán.; Ott, T.; Kählert, H.; Bonitz, M., 2013:
Magnetoplasmons in rotating dusty plasmas

Liu, D.; Wang, L.; Wang, Z.; Cuschieri, A., 2013:
Magnetoporation and magnetolysis of cancer cells via carbon nanotubes induced by rotating magnetic fields

El'chininov, N.V., 2009:
Magnetopuncture therapy in the combined corrective treatment of clinical manifestations of non-specific distress syndrome

Winklhofer, M., 2010:
Magnetoreception

Wiltschko, R.; Wiltschko, W., 2012:
Magnetoreception

Wu, L-Qing.; Dickman, J.David., 2011:
Magnetoreception in an avian brain in part mediated by inner ear lagena

Wiltschko, R.; Stapput, K.; Ritz, T.; Thalau, P.; Wiltschko, W., 2007:
Magnetoreception in birds: different physical processes for two types of directional responses

Wiltschko, W.; Dehe, L.; Stapput, K.; Thalau, P.; Wiltschko, R., 2010:
Magnetoreception in birds: no intensity window in "fixed direction" responses

Wajnberg, E.; Acosta-Avalos, D.; Alves, O.Cambraia.; de Oliveira, J.Ferreira.; Srygley, R.B.; Esquivel, D.M.S., 2010:
Magnetoreception in eusocial insects: an update

Stapput, K.; Güntürkün, O.; Hoffmann, K-Peter.; Wiltschko, R.; Wiltschko, W., 2010:
Magnetoreception of directional information in birds requires nondegraded vision

Hsu, C-Yuan.; Ko, F-Yao.; Li, C-Wei.; Fann, K.; Lue, J-Tzeng., 2007:
Magnetoreception system in honeybees (Apis mellifera)

Solov'yov, I.A.; Schulten, K., 2009:
Magnetoreception through cryptochrome may involve superoxide

Nießner, C.; Denzau, S.; Stapput, K.; Ahmad, M.; Peichl, L.; Wiltschko, W.; Wiltschko, R., 2014:
Magnetoreception: activated cryptochrome 1a concurs with magnetic orientation in birds

Occhipinti, A.; De Santis, A.; Maffei, M.E., 2014:
Magnetoreception: an unavoidable step for plant evolution?

Rizzo-Sierra, C.V.; Bayona, E.A.; Leon-Sarmiento, F.E., 2012:
Magnetoreception: the angular stone in aerospace orientation, human balance and locomotion

Richter, H.; Wiekhorst, F.; Schwarz, K.; Lyer, S.; Tietze, R.; Alexiou, C.; Trahms, L., 2009:
Magnetorelaxometric quantification of magnetic nanoparticles in an artery model after ex vivo magnetic drug targeting

Wiekhorst, F.; Steinhoff, U.; Eberbeck, D.; Trahms, L., 2012:
Magnetorelaxometry assisting biomedical applications of magnetic nanoparticles

Richter, H.; Kettering, M.; Wiekhorst, F.; Steinhoff, U.; Hilger, I.; Trahms, L., 2010:
Magnetorelaxometry for localization and quantification of magnetic nanoparticles for thermal ablation studies

Soriano, D.; Leconte, N.; Ordejón, P.; Charlier, J-Christophe.; Palacios, J-Jose.; Roche, S., 2011:
Magnetoresistance and magnetic ordering fingerprints in hydrogenated graphene

Okada, K.; Kohiki, S.; Mitome, M.; Tanaka, H.; Arai, M.; Mito, M.; Deguchi, H., 2010:
Magnetoresistance and microstructure of magnetite nanocrystals dispersed in indium-tin oxide thin films

Hua, J.; Xiao, Z.L.; Imre, A.; Yu, S.H.; Patel, U.; Ocola, L.E.; Divan, R.; Koshelev, A.; Pearson, J.; Welp, U.; Kwok, W.K., 2008:
Magnetoresistance anisotropy of a one-dimensional superconducting niobium strip

Wołoszyn, M.; Spisak, B.J.; Adamowski, J.; Wójcik, P., 2014:
Magnetoresistance anomalies resulting from Stark resonances in semiconductor nanowires with a constriction

Jain, S.; Wang, C.C.; Adeyeye, A.O., 2008:
Magnetoresistance behavior of ferromagnetic nanorings in a ring-wire hybrid configuration

Dyakonov, M.I., 2007:
Magnetoresistance due to edge spin accumulation

Alejandro, G.; Steren, L.B.; Pastoriza, H.; Vega, D.; Granada, M.; Sánchez, J.C.Rojas.; Sirena, M.; Alascio, B., 2011:
Magnetoresistance effect in (La, Sr)MnO3 bicrystalline films

Cortés-Gil, R.; Ruiz-González, M.Luisa.; Alonso, Jé.M.; García-Hernández, M.; Hernando, A.; Vallet-Regí, Mía.; González-Calbet, Jé.M., 2011:
Magnetoresistance in La0.5Sr0.5MnO2.5

Berengue, Oívia.M.; Lanfredi, A.; Pozzi, L.P.; Rey, Jéfq.; Leite, E.R.; Chiquito, A.J., 2009 :
Magnetoresistance in Sn-Doped In2O3Nanowires

Li, B.; Kao, C-Yueh.; Yoo, J-Woo.; Prigodin, V.N.; Epstein, A.J., 2011:
Magnetoresistance in an all-organic-based spin valve

Miao, G-Xing.; Müller, M.; Moodera, J.S., 2009:
Magnetoresistance in double spin filter tunnel junctions with nonmagnetic electrodes and its unconventional bias dependence

Schoonus, J.J.H.M.; Lumens, P.G.E.; Wagemans, W.; Kohlhepp, J.T.; Bobbert, P.A.; Swagten, H.J.M.; Koopmans, B., 2009:
Magnetoresistance in hybrid organic spin valves at the onset of multiple-step tunneling

Parihari, D.; Vidhyadhiraja, N.S., 2009:
Magnetoresistance in paramagnetic heavy fermion metals

Chen, Y-Fu.; Bae, M-Ho.; Chialvo, C.; Dirks, T.; Bezryadin, A.; Mason, N., 2011:
Magnetoresistance in single-layer graphene: weak localization and universal conductance fluctuation studies

Yamada, M.; Hirahara, T.; Hasegawa, S., 2013:
Magnetoresistance measurements of a superconducting surface state of in-induced and Pb-induced structures on Si(111)

Zhao, Y.; Cadden-Zimansky, P.; Ghahari, F.; Kim, P., 2012:
Magnetoresistance measurements of graphene at the charge neutrality point

Filippov, Y.P.; Ihas, G.G.; Vainberg, V.V., 2009:
Magnetoresistance of TVO temperature sensor at T<1 K

Gangopadhyay, A.; Galitski, V.; Müller, M., 2013:
Magnetoresistance of an Anderson insulator of bosons

Kohiki, S.; Nara, K.; Mitome, M.; Tsuya, D., 2014:
Magnetoresistance of drop-cast film of cobalt-substituted magnetite nanocrystals

Porrati, F.; Sachser, R.; Huth, M., 2014:
Magnetoresistance of granular Pt-C nanostructures close to the metal-insulator transition

Behan, A.J.; Mokhtari, A.; Blythe, H.J.; Ziese, M.; Fox, A.M.; Gehring, G.A., 2009:
Magnetoresistance of magnetically doped ZnO films

Hod, O.; Baer, R.; Rabani, E., 2008:
Magnetoresistance of nanoscale molecular devices based on Aharonov-Bohm interferometry

Morrow, P.; Tang, X-T.; Parker, T.C.; Shima, M.; Wang, G-C., 2008:
Magnetoresistance of oblique angle deposited multilayered Co/Cu nanocolumns measured by a scanning tunnelling microscope

Schumann, J.; Lisunov, K.G.; Escoffier, W.; Raquet, B.; Broto, J.M.; Arushanov, E.; Mönch, I.; Makarov, D.; Deneke, C.; Schmidt, O.G., 2012:
Magnetoresistance of rolled-up Fe3Si nanomembranes

Pronin, A.A.; Kondrin, M.V.; Gizatullin, V.R.; Sazanova, O.A.; Lyapin, A.G.; Popova, S.V.; Ivanov, V.Y., 2014:
Magnetoresistance of the high-pressure ferromagnetic phases (GaSb)2M (M=Cr,Mn)

Sternfeld, I.; Levy, E.; Eshkol, M.; Tsukernik, A.; Karpovski, M.; Shtrikman, H.; Kretinin, A.; Palevski, A., 2011:
Magnetoresistance oscillations of superconducting Al-film cylinders covering InAs nanowires below the quantum critical point

Rawat, R.; Kushwaha, P.; Das, I., 2009:
Magnetoresistance studies on RPd(2)Si (R = Tb, Dy, Lu) compounds

Zhang, H.Bin.; Yu, H.Lin.; Bao, D.Hua.; Li, S.Wei.; Wang, C.Xin.; Yang, G.Wei., 2012:
Magnetoresistance switch effect of a Sn-doped Bi₂ Te₃ topological insulator

Loureiro, J.; Andrade, P.Z.; Cardoso, S.; da Silva, C.L.; Cabral, J.M.; Freitas, P.P., 2011:
Magnetoresistive chip cytometer

Mujika, M.; Arana, S.; Castaño, E.; Tijero, M.; Vilares, R.; Ruano-López, J.M.; Cruz, A.; Sainz, L.; Berganza, J., 2008:
Magnetoresistive immunosensor for the detection of Escherichia coli O157:H7 including a microfluidic network

Hudziak, S.; Darfeuille, A.; Zhang, R.; Peijs, T.; Mountjoy, G.; Bertoni, G.; Baxendale, M., 2010:
Magnetoresistive phenomena in an Fe-filled carbon nanotube/elastomer composite

Gu, H.; Guo, J.; He, Q.; Jiang, Y.; Huang, Y.; Haldolaarachige, N.; Luo, Z.; Young, D.P.; Wei, S.; Guo, Z., 2014:
Magnetoresistive polyaniline/multi-walled carbon nanotube nanocomposites with negative permittivity

Rizzi, G.; Westergaard Østerberg, F.; Dufva, M.; Fougt Hansen, M., 2014:
Magnetoresistive sensor for real-time single nucleotide polymorphism genotyping

Paixão, F.C.; Silva, F.M.; Miranda, Jé.R.de.A.; Baffa, O., 2007:
Magnetoresistive sensors in a new biomagnetic instrumentation for applications in gastroenterology

Shoshi, A.; Schotter, J.; Schroeder, P.; Milnera, M.; Ertl, P.; Charwat, V.; Purtscher, M.; Heer, R.; Eggeling, M.; Reiss, G.; Brueckl, H., 2012:
Magnetoresistive-based real-time cell phagocytosis monitoring

Lee, H.Soo.; Kim, J.Hyeon.; Lee, J-Seok.; Sim, J.Young.; Seo, J.Yoon.; Oh, Y-Kwan.; Yang, S-Man.; Kim, S-Hyun., 2014:
Magnetoresponsive discoidal photonic crystals toward active color pigments

Kim, S-Hyun.; Sim, J.Young.; Lim, J-Min.; Yang, S-Man., 2010:
Magnetoresponsive microparticles with nanoscopic surface structures for remote-controlled locomotion

Katagiri, K.; Imai, Y.; Koumoto, K.; Kaiden, T.; Kono, K.; Aoshima, S., 2011:
Magnetoresponsive on-demand release of hybrid liposomes formed from Fe3 O4 nanoparticles and thermosensitive block copolymers

Katagiri, K.; Nakamura, M.; Koumoto, K., 2010:
Magnetoresponsive smart capsules formed with polyelectrolytes, lipid bilayers and magnetic nanoparticles

Arias, Jé.L.; Reddy, L.Harivardhan.; Couvreur, P., 2008:
Magnetoresponsive squalenoyl gemcitabine composite nanoparticles for cancer active targeting

Huang, X.; Mohla, A.; Hong, W.; Bastawros, A.F.; Feng, X-Qiao., 2014:
Magnetorheological brush - a soft structure with highly tuneable stiffness

Ioppolo, T.; Otügen, M.Volkan., 2010:
Magnetorheological polydimethylsiloxane micro-optical resonator

Felicia, L.J.; Philip, J., 2014:
Magnetorheological properties of a magnetic nanofluid with dispersed carbon nanotubes

Shtemler, Y.; Liverts, E.; Mond, M., 2014:
Magnetorotational decay instability in Keplerian disks

Julien, K.; Knobloch, E., 2010:
Magnetorotational instability: recent developments

Ogilvie, G.I.; Potter, A.T., 2008:
Magnetorotational-type instability in Couette-Taylor flow of a viscoelastic polymer liquid

Cherng, R.W.; Demler, E., 2009:
Magnetoroton softening in Rb spinor condensates with dipolar interactions

Yordanova, E.; Vaivads, A.; André, M.; Buchert, S.C.; Vörös, Z., 2008:
Magnetosheath plasma turbulence and its spatiotemporal evolution as observed by the cluster spacecraft

Abraçado, L.G.; Abreu, F.; Keim, C.N.; Campos, A.P.C.; Lins, U.; Farina, M., 2011:
Magnetosome chain superstructure in uncultured magnetotactic bacteria

Wang, X.; Liang, L.; Song, T.; Wu, L., 2009:
Magnetosome formation and expression of mamA, mms13, mms6 and magA in Magnetospirillum magneticum AMB-1 exposed to pulsed magnetic field

Lee, N.; Kim, H.; Choi, S.Hong.; Park, M.; Kim, D.; Kim, H-Cheol.; Choi, Y.; Lin, S.; Kim, B.Hyo.; Jung, H.Seung.; Kim, H.; Park, K.Soo.; Moon, W.Kyung.; Hyeon, T., 2011:
Magnetosome-like ferrimagnetic iron oxide nanocubes for highly sensitive MRI of single cells and transplanted pancreatic islets

Oestreicher, Z.; Valverde-Tercedor, C.; Chen, L.; Jimenez-Lopez, C.; Bazylinski, D.A.; Casillas-Ituarte, N.N.; Lower, S.K.; Lower, B.H., 2013:
Magnetosomes and magnetite crystals produced by magnetotactic bacteria as resolved by atomic force microscopy and transmission electron microscopy

Frankel, R.B.; Bazylinski, D.A., 2009:
Magnetosomes and magneto-aerotaxis

Murat, D., 2014:
Magnetosomes: how do they stay in shape?

Marklund, M.; Eliasson, B.; Shukla, P.K., 2008:
Magnetosonic solitons in a fermionic quantum plasma

Qiu, B.; Xie, D.; Walczak, P.; Li, X.; Ruiz-Cabello, J.; Minoshima, S.; Bulte, J.W.M.; Yang, X., 2010:
Magnetosonoporation: instant magnetic labeling of stem cells

Farley, D.T., 1980:
Magnetosphere and ionosphere

Kivelson, M.G.; Slavin, J.A.; Southwood, D.J., 1979:
Magnetospheres of the galilean satellites

Kerr, R.A., 1985:
Magnetospheric Workings: AMPTE Draws a Blank

Shepherd, G.G.; Thirkettle, F.W., 1973:
Magnetospheric dayside cusp: a topside view of its 6300-angstrom atomic oxygen emission

Park, C.G.; Helliwell, R.A., 1978:
Magnetospheric effects of power line radiation

Miura, A., 2013:
Magnetospheric energy principle for spherically symmetric monopolar magnetospheres

Stern, D.P., 1976:
Magnetospheric science

Yoshida, Z.; Saitoh, H.; Morikawa, J.; Yano, Y.; Watanabe, S.; Ogawa, Y., 2010:
Magnetospheric vortex formation: self-organized confinement of charged particles

Gorlenko, V.M.; Dziuba, M.V.; Maleeva, A.N.; Panteleeva, A.N.; Kolganova, T.V.; Kuznetsov, B.B., 2012:
Magnetospirillum aberrantis sp. nov., a new freshwater bacterium with magnetic inclusions

Thrash, J.Cameron.; Ahmadi, S.; Torok, T.; Coates, J.D., 2010:
Magnetospirillum bellicus sp. nov., a novel dissimilatory perchlorate-reducing alphaproteobacterium isolated from a bioelectrical reactor

Ge, X.; Wang, K.; Bo, T.; Kou, Y.; Liu, W.; Chen, G., 2011:
Magnetospirillum magneticum AMB-1 peroxiredoxins contribute to the aerotolerance and genetic stability of the genomic magnetosome island

Vergallo, C.; Piccoli, C.; Romano, A.; Panzarini, E.; Serra, A.; Manno, D.; Dini, L., 2015:
Magnetostatic Field System for uniform cell cultures exposure

Hu, J.; Pan, M.; Tian, W.; Chen, D.; Zhao, J., 2012:
Magnetostatic detection using magnetoresistive sensors with vertical motion flux modulation

Lillaney, P.; Shin, M.; Conolly, S.M.; Fahrig, R., 2012:
Magnetostatic focal spot correction for x-ray tubes operating in strong magnetic fields using iterative optimization

Béronl, F.; Clime, L.; Ciureanu, M.; Ménard, D.; Cochrane, R.W.; Yelon, A., 2008:
Magnetostatic interactions and coercivities of ferromagnetic soft nanowires in uniform length arrays

Deng, S.; Aung, K.O.; Piramanayagam, S.N.; Sbiaa, R., 2011:
Magnetostatic interactions in antiferromagnetically coupled patterned media

Saritas, E.U.; Goodwill, P.W.; Zhang, G.Z.; Conolly, S.M., 2014:
Magnetostimulation limits in magnetic particle imaging

Laver, M.; Mudivarthi, C.; Cullen, J.R.; Flatau, A.B.; Chen, W-C.; Watson, S.M.; Wuttig, M., 2010:
Magnetostriction and magnetic heterogeneities in iron-gallium

Kim, D.Hun.; Aimon, N.M.; Bi, L.; Florez, J.M.; Dionne, G.F.; Ross, C.A., 2013:
Magnetostriction in epitaxial SrTi(1-x)Fe(x)O(3-δ) perovskite films with x = 0.13 and 0.35

de Manuel, V.; Del Real, R.P.; Alonso, J.; Guerrero, H., 2007:
Magnetostriction measuring device based on an optical fiber sensor with an annular photodiode

Willson, J.P.; Jones, R.E., 1983:
Magnetostrictive fiber-optic sensor system for detecting dc magnetic fields

Zhang, K.; Fu, L.; Zhang, L.; Cheng, Z-Y.; Huang, T-Shi., 2015:
Magnetostrictive particle based biosensors for in situ and real-time detection of pathogens in water

Titis, Ján.; Boca, R., 2010:
Magnetostructural D correlation in nickel(II) complexes: reinvestigation of the zero-field splitting

Titiš, Ján.; Boča, R., 2011:
Magnetostructural D correlations in hexacoordinated cobalt(II) complexes

Ivanova, A.; Romanova, J.; Tadjer, A.; Baumgarten, M., 2013:
Magnetostructural correlation for rational design of Mn(II) hybrid-spin complexes

Korzeniak, T.; Desplanches, Cédric.; Podgajny, R.; Giménez-Saiz, C.; Stadnicka, K.; Rams, Mł.; Sieklucka, B., 2009:
Magnetostructural correlations in Cu(II)-NC-W(V) linkage: the case of [Cu(II)(diimine)]2+-[W(V)(CN)8]3- 0D assemblies

Gregoli, L.; Danieli, C.; Barra, A-Laure.; Neugebauer, P.; Pellegrino, G.; Poneti, G.; Sessoli, R.; Cornia, A., 2009:
Magnetostructural correlations in Tetrairon(III) single-molecule magnets

Pálová, L.; Chandra, P.; Rabe, K.M., 2010:
Magnetostructural effect in the multiferroic BiFeO3-BiMnO3 checkerboard from first principles

Fresch, B.; Boyen, H-G.; Remacle, F., 2012:
Magnetostructural effects in ligand stabilized Pd13 clusters: a density functional theory study

Khan, M.; Dubenko, I.; Stadler, S.; Ali, N., 2008:
Magnetostructural phase transitions in Ni(50)Mn(25+x)Sb(25-x) Heusler alloys

Maurice, Rémi.; de Graaf, C.; Guihéry, N., 2010:
Magnetostructural relations from a combined ab initio and ligand field analysis for the nonintuitive zero-field splitting in Mn(III) complexes

Sheu, C-Fu.; Pillet, Sébastien.; Lin, Y-Chen.; Chen, S-Miao.; Hsu, I-Jui.; Lecomte, C.; Wang, Y., 2008:
Magnetostructural relationship in the spin-crossover complex t-{Fe(abpt)2[N(CN)2]2}: polymorphism and disorder phenomenon

Miyazaki, Y.; Inaba, A.; Sorai, M.; Taylor, P.S.; Lahti, P.M., 2008:
Magnetostructural study of 2-(4-N-tert-butylaminoxylphenyl)benzimidazole

Tsurkan, V.; Zherlitsyn, S.; Felea, V.; Yasin, S.; Skourski, Y.; Deisenhofer, J.; von Nidda, H-A.Krug.; Lemmens, P.; Wosnitza, J.; Loidl, A., 2011:
Magnetostructural transitions in a frustrated magnet at high fields

Zhao, G.; Pumera, M., 2012:
Magnetotactic artificial self-propelled nanojets

Faivre, D.; Schüler, D., 2008:
Magnetotactic bacteria and magnetosomes

Mathuriya, A.S., 2015 :
Magnetotactic bacteria for cancer therapy

Baumgartner, J.; Morin, G.; Menguy, N.; Perez Gonzalez, T.; Widdrat, M.; Cosmidis, J.; Faivre, D., 2013:
Magnetotactic bacteria form magnetite from a phosphate-rich ferric hydroxide via nanometric ferric (oxyhydr)oxide intermediates

Oestreicher, Z.; Lower, S.K.; Rees, E.; Bazylinski, D.A.; Lower, B.H., 2014:
Magnetotactic bacteria from Pavilion Lake, British Columbia

Mokrani, N.; Felfoul, O.; Afkhami Zarreh, F.; Mohammadi, M.; Aloyz, R.; Batist, G.; Martel, S., 2011:
Magnetotactic bacteria penetration into multicellular tumor spheroids for targeted therapy

Fukumori, Y.; Taoka, A., 2008:
Magnetotactic bacteria's organella, magnetosome-localization, and cytoskeleton

Kanat, E.; Alp, A.; Yurtkuran, M., 2014:
Magnetotherapy in hand osteoarthritis: a pilot trial

Kaĭsinova, A.S.; Osipov, I.S.; Litvinova, M.A.; Prosol'chenko, A.V., 2011:
Magnetotherapy in the combined health resort-based treatment of irritated bowel syndrome

Pasek, Jław.; Pasek, T.; Herba, E.; Misiak, A.; Sieroń-Stołtny, K.; Sieroń, A., 2009:
Magnetotherapy in the treatment of viral conjunctivitis and keratitis

Valentinuzzi, M.E., 2008:
Magnetotherapy, alternative medicines, Hippocratic oath

Nayak, S.; Evangelisti, M.; Powell, A.K.; Reedijk, J., 2010:
Magnetothermal studies of a series of coordination clusters built from ferromagnetically coupled {Mn(II) (4)Mn(III) (6)} supertetrahedral units

Sologubenko, A.V.; Berggold, K.; Lorenz, T.; Rosch, A.; Shimshoni, E.; Phillips, M.D.; Turnbull, M.M., 2007:
Magnetothermal transport in the spin-1/2 chains of copper pyrazine dinitrate

Brazel, C.S., 2008:
Magnetothermally-responsive nanomaterials: combining magnetic nanostructures and thermally-sensitive polymers for triggered drug release

Bennett, J.B.; Glover, A.L.; Nikles, D.E.; Nikles, J.A.; Brazel, C.S., 2011:
Magnetothermally-triggered Drug Delivery Using Temperature-responsive Polymeric Micelles

Piao, D.; Towner, R.A.; Smith, N.; Chen, W.R., 2014:
Magnetothermoacoustics from magnetic nanoparticles by short bursting or frequency chirped alternating magnetic field: a theoretical feasibility analysis

Fisher, R.A., 1979:
Magnetothermodynamic measurement error through use of a superconducting solenoid in the persistent mode

Bhaseen, M.J.; Green, A.G.; Sondhi, S.L., 2007:
Magnetothermoelectric response at a superfluid-Mott-insulator transition

Nasir, R.; Sabeeh, K., 2011:
Magnetothermoelectric transport in modulated and unmodulated graphene

Zhou, B.; Chen, X.; Wang, H.; Ding, K-He.; Zhou, G., 2011:
Magnetotransport and current-induced spin transfer torque in a ferromagnetically contacted graphene

Patil, P.B.; Rout, S.; Rao, A.R.B.; Kumar, M.Senthil., 2008:
Magnetotransport and structural properties of nanocrystalline FeAgAl thin films

He, Q.; Yeh, C-H.; Yang, J-C.; Singh-Bhalla, G.; Liang, C-W.; Chiu, P-W.; Catalan, G.; Martin, L.W.; Chu, Y-H.; Scott, J.F.; Ramesh, R., 2012:
Magnetotransport at domain walls in BiFeO3

Liang, W.; Yuhas, B.D.; Yang, P., 2009:
Magnetotransport in Co-doped ZnO nanowires

Lo, S-Tsung.; Chuang, C.; Lin, S-Di.; Chen, K.Yao.; Liang, C-Te.; Lin, S-Wei.; Wu, J-Yang.; Yeh, M-Rong., 2011:
Magnetotransport in an aluminum thin film on a GaAs substrate grown by molecular beam epitaxy

Pernau, H-Fridtjof.; Pietsch, T.; Scheer, E., 2014:
Magnetotransport in atomic-size bismuth contacts

Budhani, R.C.; Pant, P.; Rakshit, R.K.; Senapati, K.; Mandal, S.; Pandey, N.K.; Jitendra Kumar, 2005:
Magnetotransport in epitaxial films of the degenerate semiconductor Zn(1-x)Co(x)O

Jasnot, Fçois-Régis.; Péré-Laperne, N.; de Vaulchier, L-Anne.; Guldner, Y.; Carosella, F.; Ferreira, R.; Buffaz, A.; Doyennette, L.; Berger, V.; Carras, M.; Marcadet, X., 2011:
Magnetotransport in quantum cascade detectors: analyzing the current under illumination

Lee, S.; In, J.; Chang, J-Won.; Seo, K.; Jung, M-Hwa.; Kim, J.; Kim, B., 2011:
Magnetotransport properties and kondo effect observed in a ferromagnetic single-crystalline Fe(1-x)Co(x)Si nanowire

Abid, M.; Abid, J-P.; Jannin, S.; Serrano-Guisan, S.; Palaci, I.; Ansermet, J-Ph., 2006:
Magnetotransport properties depending on the nanostructure of Fe(3)O(4) nanowires

Chen, H.; Wu, T.; Xie, Y.L.; Liu, R.H.; Wu, G.; Wang, X.F.; Chen, X.H., 2009:
Magnetotransport properties in K(0.50)CoO(2) single crystals

Mawrie, A.; Biswas, T.; Ghosh, T.Kanti., 2014 :
Magnetotransport properties of 2D fermionic systems with k-cubic Rashba spin-orbit interaction

Firoz Islam, S.K.; Ghosh, T.Kanti., 2012:
Magnetotransport properties of a magnetically modulated two-dimensional electron gas with the spin-orbit interaction

McCloy, J.S.; Ryan, J.V.; Droubay, T.; Kaspar, T.C.; Chambers, S.; Look, D.C., 2010:
Magnetotransport properties of high quality Co:ZnO and Mn:ZnO single crystal pulsed laser deposition films: pitfalls associated with magnetotransport on high resistivity materials

Lee, K.; Kim, S.; Points, M.S.; Beechem, T.E.; Ohta, T.; Tutuc, E., 2011:
Magnetotransport properties of quasi-free-standing epitaxial graphene bilayer on SiC: evidence for Bernal stacking

Dönmez, O.; Sarcan, F.; Erol, A.; Gunes, M.; Arikan, M.Cetin.; Puustinen, J.; Guina, M., 2014:
Magnetotransport study on as-grown and annealed n- and p-type modulation-doped GaInNAs/GaAs strained quantum well structures

Vigneau, F.; Prudkovkiy, V.; Duchemin, I.; Escoffier, W.; Caroff, P.; Niquet, Y-Michel.; Leturcq, R.; Goiran, M.; Raquet, B., 2014:
Magnetotransport subband spectroscopy in InAs nanowires

Labrador, A.; Gómez-Polo, C.; Pérez-Landazábal, Jé.Ignacio.; Zablotskii, V.; Ederra, Iñigo.; Gonzalo, Rón.; Badini-Confalonieri, G.; Vázquez, M., 2010:
Magnetotunable left-handed FeSiB ferromagnetic microwires

Long, C.M.; van Laarhoven, H.W.M.; Bulte, J.W.M.; Levitsky, H.I., 2009:
Magnetovaccination as a novel method to assess and quantify dendritic cell tumor antigen capture and delivery to lymph nodes

Soto-Aquino, D.; Rinaldi, C., 2011:
Magnetoviscosity in dilute ferrofluids from rotational brownian dynamics simulations

Sánchez, J.H.; Rinaldi, C., 2008:
Magnetoviscosity of dilute suspensions of magnetic ellipsoids obtained through rotational Brownian dynamics simulations

Ghasemi, E.; Mirhabibi, A.; Edrissi, M., 2011:
Magnetoviscous effect in a maghemite ferrofluid

Chang, F-Yin.; Chen, P.; Lin, G-Lin.; Noble, R.; Sydora, R., 2009:
Magnetowave induced plasma wakefield acceleration for ultrahigh energy cosmic rays

Nguyen, N-Trung.; Zhu, G.; Chua, Y-Chin.; Phan, V-Nguyen.; Tan, S-Hwa., 2010:
Magnetowetting and sliding motion of a sessile ferrofluid droplet in the presence of a permanent magnet

Gao, Y.; Chen, X.; Gupta, S.; Gillis, K.D.; Gangopadhyay, S., 2008:
Magnetron sputtered diamond-like carbon microelectrodes for on-chip measurement of quantal catecholamine release from cells

Li, Y.; Zhang, S.; Liu, Y.; Chen, T.P.; Sritharan, T.; Xu, C., 2009:
Magnetron sputtered nc-Al/alpha-Al2O3 nanocomposite thin films for nonvolatile memory application

Liang, L.; Huang, Z.; Cai, L.; Chen, W.; Wang, B.; Chen, K.; Bai, H.; Tian, Q.; Fan, B., 2014:
Magnetron sputtered zinc oxide nanorods as thickness-insensitive cathode interlayer for perovskite planar-heterojunction solar cells

Liu, H.; Ji, L.; Li, J.; Liu, S.; Liu, X.; Jiang, S., 2011:
Magnetron sputtering Si interlayer: a protocol to prepare solid phase microextraction coatings on metal-based fiber

Zhang, L.; Zhang, P.; Fang, Y., 2007:
Magnetron sputtering of silver nanowires using anodic aluminum oxide template: a new active substrate of surface enhanced Raman scattering and an investigation of its enhanced mechanism

Mejía, M.I.; Restrepo, G.; Marín, J.M.; Sanjines, R.; Pulgarín, C.; Mielczarski, E.; Mielczarski, J.; Kiwi, J., 2010:
Magnetron-sputtered Ag surfaces. New evidence for the nature of the ag ions intervening in bacterial inactivation

Bloom, A.L.; Packard, M.E., 1955:
Magnets and Magnetic Field Measurements

Rodriguez-Blanco, Y.F.; Souki, F.; Tamayo, E.; Candiotti, K., 2013:
Magnets and implantable cardioverter defibrillators: what's the problem?

Colbert, A.P.; Cleaver, J.; Brown, K.Ann.; Harling, N.; Hwang, Y.; Schiffke, H.C.; Brons, J.; Qin, Y., 2008:
Magnets applied to acupuncture points as therapy - a literature review

Waldrop, M.M., 1985:
Magnets chosen for supercollider

HOLINGER, P.H., 2018:
Magnets for the extraction of foreign bodies from the air and food passages

Laali, M.; Flecher, E.; Nogarede, B.; Leprince, P.; Gandjbakhch, I., 2010:
Magnets in cardiac valve repair: a new approach?

Gottlieb, K.T.; Banerjee, S.; Barth, B.A.; Bhat, Y.M.; Chauhan, S.S.; Konda, V.; Maple, J.T.; Murad, F.; Pfau, P.; Pleskow, D.; Siddiqui, U.D.; Tokar, J.L.; Wang, A.; Rodriguez, S.A., 2014:
Magnets in the GI tract

Anonymous, 2009:
Magnets in the bowel: A sticky problem!

George, A.Thomas.; Motiwale, S., 2013:
Magnets, children and the bowel: a dangerous attraction?

Lovering, S., 2014:
Magnet® designation in Saudi Arabia: bridging cultures for nursing excellence

Lundmark, V., 2014:
Magnet® environments and the Affordable Care Act

Hawkins, J.E.; Shell, A., 2012:
Magnet® hospitals are attracted to the BSN but what's in it for nurses?

Trinkoff, A.M., 2010:
Magnet® status improves nurses' working conditions

Landis, C.; Hunt, W.A., 1937:
Magnification of time as a Research Technique in the Study of Behavior

van As, G.A., 2013:
Magnification alternatives: seeing is believing, Part I

van As, G.A., 2013:
Magnification alternatives: seeing is believing, part 2

Langenbucher, A.; Szentmáry, Nóra.; Seitz, B., 2007:
Magnification and accommodation with phakic intraocular lenses

Sanchez-Cano, A.; Baraibar, Bña.; Pablo, L.E.; Honrubia, F.M., 2008:
Magnification characteristics of the Optical Coherence Tomograph STRATUS OCT 3000

Olivares-Perez, A.; Berriel-Valdos, L.R.; Morales, A.A., 1989:
Magnification effect and color blur behavior in holography

Wasielica-Berger, J.; Baniukiewicz, A.; Wroblewski, E.; Chwiesko, A.; Dabrowski, A., 2011:
Magnification endoscopy and chromoendoscopy in evaluation of specialized intestinal metaplasia in Barrett's Esophagus

Shibagaki, K.; Amano, Y.; Ishimura, N.; Yuki, T.; Taniguchi, H.; Fujita, H.; Kobayashi, K.; Kinoshita, Y., 2015:
Magnification endoscopy with acetic acid enhancement and a narrow-band imaging system for pit pattern diagnosis of colorectal neoplasms

Goodman, D.S., 1985:
Magnification equations for a two-lens system

Shigematsu, H.; Koizumi, M.; Yoneda, M.; Iida, J.; Oshima, T.; Tanaka, Y., 2013:
Magnification error in digital radiographs of the cervical spine against magnetic resonance imaging measurements

Novis, C.; Lipshitz, I., 2012:
Magnification for age-related macular degeneration patients having cataract surgery

Meraner, M.; Nase, J.B., 2008:
Magnification in dental practice and education: experience and attitudes of a dental school faculty

Valachi, B., 2009:
Magnification in dentistry: how ergonomic features impact your health

Taschieri, S.; Del Fabbro, M.; Weinstein, T.; Rosen, E.; Tsesis, I., 2011:
Magnification in modern endodontic practice

Brown, W.L.; Siemsen, D.W., 2007:
Magnification labels for stand magnifiers: always misleading and usually unachievable

Congdon, L.McHaney.; Tolle, S.Lynn.; Darby, M., 2014 :
Magnification loupes in U.S. entry-level dental hygiene programs--occupational health and safety

Hayee, B'Hussain.; Inoue, H.; Sato, H.; Santi, E.Grace.; Yoshida, A.; Onimaru, M.; Ikeda, H.; Kudo, S-Ei., 2014:
Magnification narrow-band imaging for the diagnosis of early gastric cancer: a review of the Japanese literature for the Western endoscopist

Snail, K.A.; Hanssen, L.M., 2008:
Magnification of conic mirror reflectometers

Stagno, V.; Del Basso De Caro, M.; Cappabianca, P., 2014:
Magnification of growth hormone-secreting tumor cells: could electron microscopy be a new paradigm for outcome in acromegaly?

Trede, D.; Alexandrov, T.; Sagiv, C.; Maass, P., 2012:
Magnification of label maps with a topology-preserving level-set method

Wu, H-Yu.; Zhang, W.; Mathias, P.C.; Cunningham, B.T., 2010:
Magnification of photonic crystal fluorescence enhancement via TM resonance excitation and TE resonance extraction on a dielectric nanorod surface

Keiser, K., 2007:
Magnification options in endodontics: a comparison of the operating microscope and the endoscope

East, J.E.; Kamm, M.A.; Bassett, P.; Saunders, B.P., 2007:
Magnification pan-chromoendoscopy remains the mainstay for colitis dysplasia detection and differentiation

Kim, Y-K.; Park, J-Y.; Kim, S-G.; Kim, J-S.; Kim, J-D., 2011:
Magnification rate of digital panoramic radiographs and its effectiveness for pre-operative assessment of dental implants

van Duinen, G.; van Heel, M.; Patwardhan, A., 2005:
Magnification variations due to illumination curvature and object defocus in transmission electron microscopy

Fu, K-I.; Kato, S.; Sano, Y.; Fujii, T., 2007:
Magnification with chromoendoscopy is the most reliable method to determine whether colorectal lesions are neoplastic or not

Bowers, D.J.; Glickman, G.N.; Solomon, E.S.; He, J., 2010:
Magnification's effect on endodontic fine motor skills

BARDEN, R.B., 1948:
Magnification, 100,000 times

Cho, S.Ju.; Kim, S.Cheol.; Kim, K.Suk.; Park, S., 2014:
Magnification-assisted subinguinal varicocelectomy with testicular delivery in children: a preliminary report

Yamakoshi, Y.; Kitamura, K.; Sato, T., 1984:
Magnification-type x-ray imaging system: optimum design and image restoration

Malterud, M.I., 2014:
Magnification: you can't effectively practice minimally invasive biomimetic dentistry without it

Ale, J.B.; Manns, F.; Ho, A., 2011:
Magnifications of single and dual element accommodative intraocular lenses: paraxial optics analysis

Slade, J.W., 1995:
Magnificence lost

Stewart, J.D., 2014:
Magnificent MRI and fascinating selective nerve fascicle damage

Sherrin, B.; da Vinci, L., 2010:
Magnificent marriage of scientific and artistic inquiry

Sanles-Sobrido, M.; Salgueiriño-Maceira, Vónica.; Correa-Duarte, M.A.; Liz-Marzán, L.M., 2008:
Magnificent sea-anemone-like magnetic silica capsules reinforced with carbon nanotubes

Oliveira, Jé., 2011:
Magnificent seven

Manchester, A., 2011:
Magnificent teamwork in response to Canterbury earthquake

Larson, R.C.; Ghaffarzadegan, N.; Diaz, M.Gomez., 2012:
Magnified Effects of Changes in NIH Research Funding Levels

Li, C-Qing.; Li, Y.; Zuo, X-Li.; Ji, R.; Li, Z.; Gu, X-Meng.; Yu, T.; Qi, Q-Qing.; Zhou, C-Jun.; Li, Y-Qing., 2014:
Magnified and enhanced computed virtual chromoendoscopy in gastric neoplasia: a feasibility study

Papenberg, G.; Lövdén, M.; Laukka, E.J.; Kalpouzos, Gégoria.; Keller, L.; Graff, C.; Köhncke, Y.; Li, T-Qiang.; Fratiglioni, L.; Bäckman, L., 2016:
Magnified effects of the COMT gene on white-matter microstructure in very old age

Ono, S.; Kato, M.; Ono, Y.; Shimizu, Y.; Asaka, M., 2009:
Magnified endoscopic images of duodenal follicular lymphoma and those of fat transportation disorders

Ono, S.; Kato, M.; Ono, Y.; Nakagawa, M.; Shimizu, Y.; Asaka, M., 2008:
Magnified endoscopic images of gastric MALT lymphoma before and after treatment

Yamao, T.; Isomoto, H.; Yamaguchi, N.; Irie, J.; Ito, Y.; Nakashima, Y.; Shikuwa, S.; Mizuta, Y.; Kohno, S.; Imamura, S.; Yamakawa, M.; Fujita, F.; Hayashi, T., 2010:
Magnified endoscopic observation using narrow-band imaging of periampullary adenoma in a patient with familial adenomatous polyposis

Katayama, O.; Namiki, K.; Iwakoshi, K.; Fujita, H.; Yasuhara, H.; Ohi, I.; Tomatsu, S., 2008:
Magnified examination of small colorectal polyps using a prototype electronic endoscope

Wei, Y.; Li, B.; Wang, X.; Duan, Y., 2015:
Magnified fluorescence detection of silver(I) ion in aqueous solutions by using nano-graphite-DNA hybrid and DNase I

Hane, K.; Grover, C.P., 1987:
Magnified grating images used in displacement sensing

Kondo, Y.; Okunishi, E., 2014:
Magnified pseudo-elemental map of atomic column obtained by Moiré method in scanning transmission electron microscopy

Restrepo, J.F.; Garcia-Sucerquia, J., 2010:
Magnified reconstruction of digitally recorded holograms by Fresnel-Bluestein transform

Isomoto, H.; Uehara, R.; Hayashi, T.; Shiota, J.; Matsushima, K.; Chen, C.Chuan.; Takeshima, F.; Nakayama, T.; Nakao, K., 2013:
Magnifying Endoscopic Findings Can Predict Clinical Outcome during Long-Term Follow-Up of More Than 12 Months in Patients with Ulcerative Colitis

Ohnita, K.; Isomoto, H.; Shikuwa, S.; Yamaguchi, N.; Nakayama, T.; Nishiyama, H.; Okamoto, K.; Fukuda, E.; Takeshima, F.; Hayashi, T.; Kohno, S.; Nakao, K., 2011:
Magnifying chromoendoscopic findings of early gastric cancer and gastric adenoma

Shimura, T.; Ebi, M.; Yamada, T.; Hirata, Y.; Nishiwaki, H.; Mizushima, T.; Asukai, K.; Togawa, S.; Takahashi, S.; Joh, T., 2014:
Magnifying chromoendoscopy and endoscopic ultrasonography measure invasion depth of early stage colorectal cancer with equal accuracy on the basis of a prospective trial

Meng, X-Mei.; Zhou, Y.; Dang, T.; Tian, X-Yang.; Kong, J., 2014:
Magnifying chromoendoscopy combined with immunohistochemical staining for early diagnosis of gastric cancer

Kiesslich, R.; Neurath, M.F., 2007:
Magnifying chromoendoscopy: effective diagnostic tool for screening colonoscopy

Ando, T.; Takahashi, H.; Watanabe, O.; Maeda, O.; Ishiguro, K.; Ishikawa, D.; Hasegawa, M.; Ohmiya, N.; Niwa, Y.; Goto, H., 2007:
Magnifying chromoscopy, a novel and useful technique for colonoscopy in ulcerative colitis

Watanabe, C.; Sumioka, M.; Hiramoto, T.; Noda, I.; Oba, S.; Akagi, M.; Kitamoto, M.; Yamada, H.; Imagawa, M., 2010:
Magnifying colonoscopy used to predict disease relapse in patients with quiescent ulcerative colitis

Matsumoto, T.; Kudo, T.; Jo, Y.; Esaki, M.; Yao, T.; Iida, M., 2007:
Magnifying colonoscopy with narrow band imaging system for the diagnosis of dysplasia in ulcerative colitis: a pilot study

Zhao, F-qiang.; Zhang, P-xun.; Jiang, B-guo., 2007:
Magnifying effect of conduit bridging in number of nerve fibers of broken peripheral nerves: experiment with rats

Tateya, I.; Morita, S.; Muto, M.; Miyamoto, S'ichi.; Hayashi, T.; Funakoshi, M.; Aoyama, I.; Hirano, S.; Kitamura, M.; Ishikawa, S.; Kishimoto, Y.; Morita, M.; Mahattanasakul, P.; Morita, S.; Ito, J., 2015:
Magnifying endoscope with NBI to predict the depth of invasion in laryngo-pharyngeal cancer

Gonen, C.; Sarioglu, S.; Akpinar, H., 2009:
Magnifying endoscopic features of granulomatous gastritis

Kawamura, M.; Abe, S.; Oikawa, K.; Terai, S.; Saito, M.; Shibuya, D.; Kato, K.; Inomata, Y.; Ohara, S.; Shimosegawa, T., 2011:
Magnifying endoscopic findings of the surface structure of non-cancerous mucosa surrounding differentiated and undifferentiated gastric carcinoma

Minami, H.; Isomoto, H.; Yamaguchi, N.; Nakao, K.; Hayashi, T., 2012 :
Magnifying endoscopic observation of esophageal squamous cell carcinoma

Inoue, N.; Isomoto, H.; Shikuwa, S.; Mizuta, Y.; Hayashi, T.; Kohno, S., 2009:
Magnifying endoscopic observation of primary follicular lymphoma of the duodenum by using the narrow-band imaging system

Norimura, D.; Isomoto, H.; Nakayama, T.; Hayashi, T.; Suematsu, T.; Nakashima, Y.; Inoue, N.; Matsushima, K.; Yamaguchi, N.; Ohnita, K.; Mizuta, Y.; Inoue, K.; Shikuwa, S.; Nakao, K.; Kohno, S., 2010:
Magnifying endoscopic observation with narrow band imaging for specialized intestinal metaplasia in barrett's esophagus with special reference to light blue crests

Boeriu, A.M.; Dobru, D.E.; Mocan, S., 2010:
Magnifying endoscopy and chromoendoscopy of the upper gastrointestinal tract

Horiuchi, H.; Kaise, M.; Inomata, H.; Yoshida, Y.; Kato, M.; Toyoizumi, H.; Goda, K.; Arakawa, H.; Ikegami, M.; Kushima, R.; Tajiri, H., 2013:
Magnifying endoscopy combined with narrow band imaging may help to predict neoplasia coexisting with gastric hyperplastic polyps

Iwamuro, M.; Okuda, M.; Yumoto, E.; Suzuki, S.; Shirakawa, A.; Takata, K.; Yoshino, T.; Okada, H.; Yamamoto, K., 2013:
Magnifying endoscopy for intestinal follicular lymphoma is helpful for prompt diagnosis

Guo, M.; Li, Y.; Wang, Z.; Wu, B.; Li, Y.; Wang, J.; Li, J., 2012:
Magnifying endoscopy for monitoring intestinal adaptation: a case report

Ham, N.Seok.; Jang, J.Young.; Ryu, S.Woo.; Kim, J.Hye.; Park, E.Ju.; Lee, W.Cheul.; Shim, K.Yeun.; Jeong, S.Won.; Kim, H.Gun.; Lee, T.Hee.; Jeon, S.Ran.; Cho, J.Hyung.; Cho, J.Young.; Jin, S.Young.; Lee, J.Sung., 2014:
Magnifying endoscopy for the diagnosis of specialized intestinal metaplasia in short-segment Barrett's esophagus

Kim, G.Ha., 2011:
Magnifying endoscopy in a patient with chest pain and Dysphagia

Chai, N-Li.; Ling-Hu, E-Qiang.; Morita, Y.; Obata, D.; Toyonaga, T.; Azuma, T.; Wu, B-Yan., 2012:
Magnifying endoscopy in upper gastroenterology for assessing lesions before completing endoscopic removal

Kang, H.Mi.; Kim, G.Ha.; Park, D.Youn.; Cheong, H.Ryeol.; Baek, D.Hoon.; Lee, B.Eun.; Song, G.Am., 2015:
Magnifying endoscopy of gastric epithelial dysplasia based on the morphologic characteristics

Kudo, S-Ei.; Ikeda, H.; Kutukawa, M.; Kodama, K.; Otuka, K., 2012:
Magnifying endoscopy of neoplasm associated with ulcerative colitis

Lee, B.Eun.; Kim, G.Ha., 2013:
Magnifying endoscopy with narrow band imaging and endoscopic ultrasonography for assessing eosinophilic esophagitis

Goda, K.; Tajiri, H.; Ikegami, M.; Yoshida, Y.; Yoshimura, N.; Kato, M.; Sumiyama, K.; Imazu, H.; Matsuda, K.; Kaise, M.; Kato, T.; Omar, S., 2009:
Magnifying endoscopy with narrow band imaging for predicting the invasion depth of superficial esophageal squamous cell carcinoma

Kato, M.; Kaise, M.; Yonezawa, J.; Toyoizumi, H.; Yoshimura, N.; Yoshida, Y.; Kawamura, M.; Tajiri, H., 2011:
Magnifying endoscopy with narrow-band imaging achieves superior accuracy in the differential diagnosis of superficial gastric lesions identified with white-light endoscopy: a prospective study

Omae, M.; Fujisaki, J.; Shimizu, T.; Igarashi, M.; Yamamoto, N., 2014:
Magnifying endoscopy with narrow-band imaging findings in the diagnosis of Barrett's esophageal adenocarcinoma spreading below squamous epithelium

Mochizuki, Y.; Saito, Y.; Kobori, A.; Ban, H.; Ishida, M.; Fujiyama, Y.; Andoh, A., 2013:
Magnifying endoscopy with narrow-band imaging in the differential diagnosis of gastric adenoma and carcinoma and identification of a simple indicator

Wang, S-fang.; Yang, Y-sheng.; Yuan, J.; Lu, Z-sheng.; Zhang, X-li.; Sun, G.; Peng, L-hua.; Ling-hu, E-qiang.; Meng, J-yun., 2012:
Magnifying endoscopy with narrow-band imaging may improve diagnostic accuracy of differentiated gastric intraepithelial neoplasia: a feasibility study

Cotruta, B.; Gheorghe, C.; Bancila, I., 2009:
Magnifying endoscopy with narrow-band imaging or confocal laser endomicroscopy for in vivo rapid diagnostic of Barrett's esophagus

Kisu, I.; Banno, K.; Susumu, N.; Aoki, D., 2012:
Magnifying hysteroscopy with narrow-band imaging for visualization of endometrial lesions

Merrill, F.E.; Campos, E.; Espinoza, C.; Hogan, G.; Hollander, B.; Lopez, J.; Mariam, F.G.; Morley, D.; Morris, C.L.; Murray, M.; Saunders, A.; Schwartz, C.; Thompson, T.N., 2011:
Magnifying lens for 800 MeV proton radiography

Mantzaris, G.; Rodolakis, A.; Vlachos, G.; Athanasiou, S.; Theocharis, S.; Sotiripoulou, C.M.; Antsaklis, A., 2007:
Magnifying lenses assisted nerve-sparing radical hysterectomy and prevention of nerve plexus trauma

James, T.; Gilmour, A.S.M., 2011:
Magnifying loupes in modern dental practice: an update

Kumar, S.Shanmugam.; Mourkus, H.; Farrar, G.; Yellu, S.; Bommireddy, R., 2013:
Magnifying loupes versus microscope for microdiscectomy and microdecompression

Taschieri, S.; Weinstein, T.; Tsesis, I.; Bortolin, M.; Del Fabbro, M., 2014:
Magnifying loupes versus surgical microscope in endodontic surgery: a four-year retrospective study