Laser Driving Highly Collimated γ-ray Pulses for the Generation of μ-μ+ and e-e+ Pairs in γ-γ Collider

Abstract

A scheme to generate highly collimated γ-ray pulse is proposed for the production of muon and electron pairs in γ-γ collider. The γ-ray pulse, with high conversion efficiency, can be produced as the result of electron phase-locked acceleration in longitudinal electric field through the interaction between an ultra-intense laser pulse and a narrow tube target. Numerical simulation shows that 18\% energy of a 10-PW laser pulse is transferred into the forward γ-rays in a divergence angle less than 3. The γ-ray pulse is applied in γ-γ collider, in which muon pairs can be produced and electron pairs can be enhanced by more than 3 orders of magnitude. This scheme, which could be realized with the coming 10PW class laser pulses, would allow the observation of a γ-γ collider for electron and muon pairs in laboratory.