Nonlinear Inverse Compton Scattering from a Laser Wakefield Accelerator and Plasma Mirror
- Resource Type
- Working Paper
- Authors
- Hannasch, A.; LaBerge, M.; Zgadzaj, R.; Cabadağ, J. P. Couperus; Garcia, A. Laso; Kurz, T.; Cowan, T.; Schramm, U.; Irman, A.; Downer, M. C.
- Source
- Subject
- Physics - Accelerator Physics
Physics - Plasma Physics
- Language
We generate inverse Compton scattered X-rays in both linear and nonlinear regimes with a 250 MeV laser wakefield electron accelerator and plasma mirror by retro-reflecting the unused drive laser light to scatter from the accelerated electrons. We characterize the X-rays using a CsI(Tl) voxelated scintillator that measures their total energy and divergence as a function of plasma mirror distance from the accelerator exit. At each plasma mirror position, these X-ray properties are correlated with the measured fluence and inferred intensity of the laser pulse after driving the accelerator to determine the laser strength parameter $a_0$. The results show that ICS X-rays are generated at $a_0$ ranging from $0.3\pm0.1$ to $1.65\pm0.25$, and exceed the strength of co-propagating bremsstrahlung and betatron X-rays at least ten-fold throughout this range of $a_0$.
Comment: Proceedings of the Advanced Accelerator Concepts Seminar Series 2020