A differential pumping system for one of the ESRF ultra-high vacuum beamlines
Renier, M.; Draperi, A.
Vacuum 48(5): 405-407
1997
ISSN/ISBN: 0042-207X Accession: 073653004
PDF emailed within 1 workday: $29.90
Related References
Hobson, J. 1961: The pumping of nitrogen by a Bayard-Alpert ionization gauge in an ultra-high-vacuum system Vacuum 11(1): 16-24Tamenori, Y. 2010: Development of a differential pumping system for soft X-ray beamlines for windowless experiments under normal atmospheric conditions Journal of Synchrotron Radiation 17(2): 243-249
Hengevoss, J.; Huber, W. 1963: The influence of fore-vacuum conditions on ultra-high vacuum pumping systems with oil diffusion pumps Vacuum 13(1): 1-9
Bridgman, C.; Meyer, E.A. 1989: Design aspects of a differential vacuum pumping system Journal of Vacuum Science-Technology A: Vacuum, Surfaces, and Films 7(3): 2427-2429
Freund, A.K.; Susini, J.; Ziegler, E. 1995: X‐ray optics at ESRF Beamlines Synchrotron Radiation News 8(4): 28-35
Goulon, J.; Brookes, N.B.; Gauthier, C.; Goedkoop, J.; Goulonginet, C.; Hagelstein, M.; Rogalev, A. 1995: Instrumentation development for ESRF Beamlines Physica, B Condens. Matter 208-09: 199-202
Freund, A.K. 1992: X-ray optics for ESRF beamlines : problems and projects (invited) Rev. Sci. Instrum 63(1): 413-418
Trickett, B. 1988: The ESRF vacuum system Vacuum 38(8-10): 607-612
Kerger, P.; Vogel, D.; Rohwerder, M. 2018: Electrochemistry in ultra-high vacuum: the fully transferrable ultra-high vacuum compatible electrochemical cell Review of Scientific Instruments 89(11): 113102
Gabadinho, J.; Hall, D.; Leonard, G.; Gordon, E.; Monaco, S.; Thibault, X. 2008: Remote Access Experiments at the Macromolecular Crystallography Beamlines of the ESRF Synchrotron Radiation News 21(5): 24-29
Mattenet, M.; Konovalov, O.; Madsen, A.; Grübel, G. 2006: The semi-transparent diamond monochromator at the ESRF Troika beamlines Macromolecular Research 14(4): 473-477
Ohashi, H.; Goto, S.; Kishimoto, H.; Murase, T.; Isshiki, M.; Suzuki, Y.; Kimura, H.; Takeshita, K.; Ishikawa, T. 2001: Vacuum system of X-ray beamlines of SPring-8 Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 467-468: 801-804
Gog, T.; Casa, D.M.; Kuzmenko, I.; Krakora, R.J.; Bolin, T.B. 2007: Windowless transition between atmospheric pressure and high vacuum via differential pumping for synchrotron radiation applications Journal of Synchrotron Radiation 14(Pt 4): 339-344
Bendix Vacuum Ltd, 1973: High-speed 10-inch vacuum pumping system Vacuum 23(5): 186-187
Mizuhara, Y.; Bungo, T.; Nagatomi, T.; Takai, Y.; Suzuki, S.; Kikuchi, K.; Sato, T.; Uta, K. 2005: Development of ultrahigh vacuum floating-type low-energy ion gun with differential pumping facilities for high-resolution depth profiling Surf. Interface Anal 37(2): 171-175
Schmied, D. 2001: Vacuum control and operation of the ESRF accelerator system Evc European Vacuum Conference 60(1-2): 123-129
von Stetten, D.; Giraud, T.; Carpentier, P.; Sever, F.; Terrien, M.; Dobias, F.; Juers, D.H.; Flot, D.; Mueller-Dieckmann, C.; Leonard, G.A.; de Sanctis, D.; Royant, A. 2015: In crystallo optical spectroscopy (icOS) as a complementary tool on the macromolecular crystallography beamlines of the ESRF Acta Crystallographica. Section D Biological Crystallography 71(Pt 1): 15-26
Cho, B.; Lee, S.; Chung, S. 1995: Creation of extreme high vacuum with a turbomolecular pumping system: a baking approach Journal of Vacuum Science-Technology A: Vacuum, Surfaces, and Films 13(4): 2228-2232
De Sanctis, D.; Oscarsson, M.; Popov, A.; Svensson, O.; Leonard, G. 2016: Facilitating best practices in collecting anomalous scattering data for de novo structure solution at the ESRF Structural Biology Beamlines Acta Crystallographica. Section D Structural Biology 72(Part 3): 413-420
Turner, J A.; Pickard, R M.; Hoffman, G R. 1962: Ultra-high vacuum system Journal of Scientific Instruments 39(1): 26-28