Relativistic elastic scattering of an electron by a muon in the field of a circularly polarized electromagnetic wave

Abstract

Abstract Within the framework of quantum electrodynamics, the scattering of an electron by a muon in the presence of a circularly polarized monochromatic laser field is investigated theoretically in the first Born approximation. The expressions for the amplitude and the differential cross section (DCS) are derived analytically by adopting the Furry picture approach in which the calculations are carried out using exact relativistic Dirac-Volkov functions. We begin by studying the process taking into account the relativistic dressing of only the electron without muon. Then, in order to reveal the effect of the muon dressing, we fully consider the relativistic dressing of the electron and muon together in the initial and final states. As a result, the DCS is significantly reduced by the laser field. We find that the effect of laser-dressing of muon becomes noticeable at laser field strengths greater than or equal to 10 9   V cm − 1 and therefore must be taken into account. The influence of the laser field strength and frequency on the DCS and multiphoton process is revealed. An insightful comparison with the laser-free results is also included.