Signatures of linear Breit-Wheeler pair production in polarized γγ collisions

Abstract

Laser-driven brilliant controllable polarized γ-photon sources open the way for designing compact γγ collider, which enable the large yield of linear Breit-Wheeler (LBW) pairs in a single shot and thus provide an opportunity for the investigation of polarized LBW process. In this work we investigate the polarization characteristics of LBW pair production via our developed spin-resolved binary collision simulation method. Polarization of γ-photons modifies the kinematics of scattering particles and induces the correlated energy-angle shift of LBW pairs, and the latter's polarization characteristic depends on the helicity configures of scattering particles. Our method confirms that the polarized γγ collider with an asymmetric setup can be performed with currently achievable laser facilities to produce abundant polarized LBW pairs, fulfilling the detection power of polarimetries. The precise knowledge of polarized LBW process is in favor of the calibration and monitor of polarized γγ collider, and could enhance the opacity of γ-photons in high-energy astrophysical objects to exacerbate the inconsistency between some observations and standard models.