Coherent Compton X-Ray Sources

被引:0
|
作者
Luccio, A. [1 ]
Miceli, L. [1 ]
机构
[1] Brookhaven National Laboratory, Upton,NY,11973-5000, United States
来源
Journal of X-Ray Science and Technology | 1994年 / 4卷 / 04期
关键词
Coherent X-rays - COMPTON - Degree of coherence - Electron beam scattering - Electron-beam - Laser lights - Number of electrons - Relativistic electron - X-ray sources - X-ray yield;
D O I
10.3233/XST-1994-4401
中图分类号
学科分类号
摘要
Coherent x rays can be produced by scattering of laser light by a beam of relativistic electrons, provided that the electron beam is density modulated or the scattering is done at, or near, 90°. Since the coherent scattering is proportional to N2, where 7 is the number of electrons, and the incoherent scattering is proportional to N, also a modest degree of coherence can substantially increase the x-ray yield. The theory of laser-electron-beam scattering is reviewed and compared with the emission of radiation by an electron beam in an undulator. Examples of the practical implementation of an intense source of coherent Xray sared is cussed. Copyright © 1994 by Academic Press, Inc. All rights of reproduction in any form reserved.
引用
收藏
页码:247 / 262
相关论文
共 50 条
  • [1] Optics for coherent x-ray sources
    Pantell, RH
    Feinstein, J
    Cremer, JT
    Piestrup, MA
    Beguiristain, HR
    Gary, CK
    [J]. OPTICS FOR FOURTH-GENERATION X-RAY SOURCES, 2001, 4500 : 123 - 132
  • [2] SEPARATION OF COHERENT + INCOHERENT COMPTON X-RAY SCATTERING
    RULAND, W
    [J]. BRITISH JOURNAL OF APPLIED PHYSICS, 1964, 15 (11): : 1301 - &
  • [3] Refractive lenses for coherent x-ray sources
    Pantell, RH
    Feinstein, J
    Beguiristain, HR
    Piestrup, MA
    Gary, CK
    Cremer, JT
    [J]. APPLIED OPTICS, 2001, 40 (28) : 5100 - 5105
  • [4] Coherent soft x-ray sources for users
    Guilbaud, O.
    Ros, D.
    Kazamias, S.
    Cassou, K.
    Daboussi, Sameh
    Pittman, Moana
    Lagron, Jean-Claude
    Cros, B.
    Maynard, G.
    [J]. X-RAY LASERS AND COHERENT X-RAY SOURCES: DEVELOPMENT AND APPLICATIONS IX, 2011, 8140
  • [5] Refractive lenses for coherent x-ray sources
    Pantell, Richard H.
    Feinstein, Joseph
    Beguiristain, H. Raul
    Piestrup, Melvin A.
    Gary, Charles K.
    Cremer, J. Theodore
    [J]. Applied Optics, 2001, 40 (28): : 5100 - 5105
  • [6] X-Ray Lasers and Coherent X-Ray Sources: Development and Applications X Introduction
    Klisnick, Annie
    Menoni, Carmen S.
    [J]. X-RAY LASERS AND COHERENT X-RAY SOURCES: DEVELOPMENT AND APPLICATIONS X, 2013, 8849
  • [7] Evaluation and optimization of multimodal X-ray imaging techniques for inverse Compton X-ray sources
    Guenther, Benedikt
    Gradl, Regine
    Jud, Christoph
    Eggl, Elena
    Kulpe, Stephanie
    Braig, Eva-Maria
    Heck, Lisa
    Brantl, Johannes
    Achterhold, Klaus
    Gleich, Bernhard
    Dierolf, Martin
    Pfeiffer, Franz
    [J]. ADVANCES IN LABORATORY-BASED X-RAY SOURCES, OPTICS, AND APPLICATIONS VII, 2019, 11110
  • [8] COMPTON-EFFECT ON THERMAL ELECTRONS IN X-RAY SOURCES
    ILLARIONOV, AF
    SYUNYAEV, RA
    [J]. ASTRONOMICHESKII ZHURNAL, 1972, 49 (01): : 58 - +
  • [9] Determining x-ray spectra of radiographic sources with a Compton spectrometer
    Gehring, Amanda E.
    Espy, Michelle A.
    Haines, Todd J.
    Hunter, James F.
    King, Nick S. P.
    Manard, Manuel J.
    Merrill, Frank E.
    Morgan, George L.
    Sedillo, Robert
    Trainham, Rusty
    Urbaitis, Algis V.
    Volegov, Petr
    [J]. RADIATION DETECTORS: SYSTEMS AND APPLICATIONS XV, 2014, 9215
  • [10] Molecular Imaging with Clinical X-Ray Sources and Compton Cameras
    Vernekohl, D.
    Ahmad, M.
    Chinn, G.
    Xing, L.
    [J]. MEDICAL PHYSICS, 2016, 43 (06) : 3668 - 3668
12345