Title :
Femtosecond X-ray generation via the Thomson scattering of a terawatt laser from electron bunches produced from the LWFA utilizing a plasma density transition
Author :
Hafz, N. ; Lee, Jongmin ; Kim, J.U. ; Kim, G.H. ; Suk, H. ; Jongmin Lee
Author_Institution :
Center for Adv. Accel., Korea Electrotechnol. Res. Inst., Changwon, South Korea
Abstract :
We propose a novel experimental scheme for a compact and tunable X-ray source capable of producing X-ray pulses with a few tens of femtosecond duration. This new source is simple; it does not require an RF-based accelerator or injector. It is based on the Thomson back-scattering of a terawatt femtosecond laser from the megaelectronvolt-level plasma-accelerated electrons. Here, we present particle-in-cell simulation results for the ultrashort e-beam generation from the laser-wakefield accelerators with a plasma-density transition and the basic characteristics of the X-ray generation. Using a 20-TW 40-fs laser system, we are going to perform an experiment for generating ultrashort X-rays via the Thomson scattering.
Keywords :
brightness; light scattering; particle beam bunching; plasma X-ray sources; plasma accelerators; plasma production by laser; plasma simulation; relativistic electron beams; wakefield accelerators; 20 TW; 40 fs; Thomson backscattering; Thomson scattering; X-ray pulses; compact tunable X-ray source; electron bunches; femtosecond X-ray generation; high brightness; laser wakefield accelerator; laser-based self-trapping method; particle-in-cell simulation; plasma density transition; plasma-accelerated electrons; relativistic electrons; self-injected electron beams; terawatt laser; two-dimensional simulations; ultrashort X-rays; Electrons; Laser transitions; Particle accelerators; Particle scattering; Plasma accelerators; Plasma density; Plasma properties; Plasma simulation; X-ray lasers; X-ray scattering;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2003.820680
