Acta Optica Sinica, Volume. 42, Issue 11, 1134017(2022)
Optical Design of X-Ray Resonant Cavity Based on Crystal Bragg Mirrors
[1] Kim K J, Shvyd’ko Y V, Reiche S. A proposal for an X-ray free-electron laser oscillator with an energy-recovery linac[J]. Physical Review Letters, 100, 244802(2008).
[2] Huang Z R, Ruth R D. Fully coherent X-ray pulses from a regenerative-amplifier free-electron laser[J]. Physical Review Letters, 96, 144801(2006).
[3] Madey J, Scully M O, Sprangle P. The free electron laser: conceptual history[J]. Physica Scripta, 91, 083003(2016).
[4] Deacon D A G, Elias L R, Madey J M J et al. First operation of a free-electron laser[J]. Physical Review Letters, 38, 892-894(1977).
[5] Colella R, Luccio A. Proposal for a free electron laser in the X-ray region[J]. Optics Communications, 50, 41-44(1984).
[6] Shvyd’ko Y V, Stoupin S, Cunsolo A et al. High-reflectivity high-resolution X-ray crystal optics with diamonds[J]. Nature Physics, 6, 196-199(2010).
[7] Qin W, Huang S, Liu K X et al. Start-to-end simulations for an X-ray FEL oscillator at the LCLS-II and LCLS-II-HE. [C]∥38th International Free Electron Laser Conference, August 20-25, 2017, Santa Fe, NM, USA. Los Alamos: Los Alamos National Laboratory, TUC05(2018).
[8] Kim K J, Shvyd’ko Y V. Tunable optical cavity for an X-ray free-electron-laser oscillator[J]. Physical Review Special Topics-Accelerators and Beams, 12, 030703(2009).
[9] Freund H P, Shvyd’ko Y V. An X-ray regenerative amplifier free-electron laser using diamond pinhole mirrors[J]. New Journal of Physics, 21, 093028(2019).
[10] Li K. The theoretical study of X-ray free-electron laser oscillator Shanghai: Shanghai Institute of Applied Physics,[D]. Chinese Academy of Sciences, 60-67(2018).
[11] Lindberg R R, Kim K J. Mode growth and competition in the X-ray free-electron laser oscillator start-up from noise[J]. Physical Review Special Topics: Accelerators and Beams, 12, 070702(2009).
[12] Kim K J, Huang Z R, Lindberg R[M]. Synchrotron radiation and free-electron lasers: principles of coherent X-ray generation(2017).
[13] Shvyd’ko Y V. X-ray optics[M]. Heidelberg: Springer(2004).
[14] Yamamura K, Ueda K, Nagano M et al. Fabrication of damage-free Johansson-type doubly curved crystal spectrometer substrate by numerically controlled local wet etching[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 616, 281-284(2010).
[15] Song M Q, Zhang Q M, Guo Y H et al. Numerical modeling of thermal loading of diamond crystal in X-ray FEL oscillators[J]. Chinese Physics C, 40, 048101(2016).
[16] Maag C, Bahns I, Rossbach J et al. An experimental setup for probing the thermal properties of diamond regarding its use in an XFELO. [C]∥38th International Free Electron Laser Conference, August 20-25, 2017, Santa Fe, NM, USA. Los Alamos: Los Alamos National Laboratory, MOP064(2018).
[17] Lindberg R R, Kim K J, Shvyd’ko Y et al. Performance of the X-ray free-electron laser oscillator with crystal cavity[J]. Physical Review Special Topics: Accelerators and Beams, 14, 010701(2011).
Get Citation
Copy Citation Text
Zhiyuan Zhang, Chen Wu, Nanshun Huang, Li Song, Zengyan Zhang, Xiaohao Dong, Haixiao Deng, Jie Wang. Optical Design of X-Ray Resonant Cavity Based on Crystal Bragg Mirrors[J]. Acta Optica Sinica, 2022, 42(11): 1134017
Category: X-Ray Optics
Received: Feb. 9, 2022
Accepted: Apr. 18, 2022
Published Online: Jun. 3, 2022
The Author Email: Dong Xiaohao (dongxiaohao@zjlab.org.cn)