Scaling laws for positron production in laser--electron-beam collisions

Abstract

Showers of γ-rays and positrons are produced when a high-energy electron beam collides with a super-intense laser pulse. We present scaling laws for the electron beam energy loss, the γ-ray spectrum, and the positron yield and energy that are valid in the non-linear, radiation-reaction--dominated regime. As an application we demonstrate that by employing the collision of a >GeV electron beam with a laser pulse of intensity >5×1021\,Wcm-2, today's high-intensity laser facilities are capable of producing O(104) positrons per shot via light-by-light scattering.