Generation of bright collimated vortex γ-ray via laser driven cone-fan target

Abstract

We use numerical simulations to demonstrate that a source of bright collimated vortex γ-ray with large orbital angular momentum can be achieved by irradiating a circularly polarized laser with an intensity about 1022W/cm2 on a cone-fan target. In the studied setup, electron beam of energy of hundreds of MeV and vortex laser pulse are formed. And furthermore a high quality vortex γ-ray is yielded with small divergence of 5 and high peak brilliance 5×1022 photons · s-1 · mm-2 · mrad-2 0.1\%BW at 10MeV. A considerable fraction of angular momentum of laser is converted to electron beam and vortex γ-ray, which are roughly 27.8\% and 3\%, respectively. And the conversion efficiency of energy from laser to electron beam and vortex γ-ray are around 41\% and 3.8\%. Moreover, comparative simulations for different right radius of cone reveal that there exists an optimal size that makes the highest angular momentum of γ-ray photons to be around 2.8×106. The comparative simulations for different laser modes exhibit that it is more appropriate to choose the circularly polarized laser to generate vortex γ-ray than the Laguerre-Gaussian one.