Sauter-Schwinger effect for colliding laser pulses

Abstract

Via a combination of analytical and numerical methods, we study electron-positron pair creation by the electromagnetic field A(t, r)=[f(ct-x)+f(ct+x)] ey of two colliding laser pulses. Employing a generalized WKB approach, we find that the pair creation rate along the symmetry plane x=0 (where one would expect the maximum contribution) displays the same exponential dependence as for a purely time-dependent electric field A(t)=2f(ct) ey. The pre-factor in front of this exponential does also contain corrections due to focusing or de-focusing effects induced by the spatially inhomogeneous magnetic field. We compare our analytical results to numerical simulations using the Dirac-Heisenberg-Wigner method and find good agreement.