Author :
Kuroda, R. ; Toyokawa, H. ; Yasumoto, M. ; Sei, N. ; Ogawa, H. ; Koike, M. ; Yamada, K. ; Nakajyo, T. ; Sakai, F. ; Yanagida, T. ; Gowa, T. ; Masuda, A. ; Moriyama, R. ; Kamiya, Y. ; Sakaue, K. ; Washio, M. ; Kashiwagi, S.
Abstract :
The laser cavities of Ti:Sa and Nd:YLF laser have been designed for the multi-collision laser Compton scattering (Multi-LCS) in order to enhance the X-ray yields of the LCS hard and soft X-ray source. This cavity is like the regenerative amplification including a laser crystal and a collision point for LCS. The enhanced X-ray yield was estimated more than about 1 times 109/s using the intra-cavity stored energy. In this conference, we will describe details of the laser cavity design for the Multi-LCS and future plans of the LCS X-ray sources.
Keywords :
X-ray optics; accelerator RF systems; colliding beam accelerators; laser cavity resonators; linear accelerators; neodymium; solid lasers; titanium; Nd:YLF laser; Ti:Sa laser; X-ray yield; X-ray yields; collision point; hard X-ray source; intracavity stored energy; laser cavities; laser crystal; laser system; multicollision laser Compton scattering; photocathode RF gun; regenerative amplification; soft X-ray source; Cathodes; Electromagnetic scattering; Electron beams; Optical design; Optical pulses; Particle scattering; Pulse amplifiers; Radio frequency; X-ray lasers; X-ray scattering;
