Bright 5 - 85 MeV Compton gamma-ray pulses from GeV laser-plasma accelerator and plasma mirror

Abstract

We convert a GeV laser-plasma electron accelerator into a compact femtosecond-pulsed γ-ray source by inserting a 100 μm-thick glass plate 3 cm after the accelerator exit. With near-unity reliability, and requiring only crude alignment, this glass plasma mirror retro-reflected spent drive laser pulses (photon energy ωL = 1.17 eV) with >50\% efficiency back onto trailing electrons (peak Lorentz factor 1000 < γe < 4400), creating an optical undulator that generated 108 γ-ray photons with sub-mrad divergence, estimated peak brilliance 1021 photons/s/mm2/mrad2/0.1\% bandwidth and negligible bremsstrahlung background. The γ-ray photon energy Eγ = 4γe2 ωL, inferred from the measured γe on each shot, peaked from 5 to 85 MeV, spanning a range otherwise available with comparable brilliance only from large-scale GeV-linac-based high-intensity γ-ray sources.