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Strong field vacuum birefringence in plane wave pulses

B. King, T. Heinzl, Tom Blackburn

2023The European Physical Journal C10 citationsDOIOpen Access PDF

Abstract

Abstract By combining an adiabatic approach based on a ‘locally monochromatic’ approximation with a local Hilbert transform, it is demonstrated how vacuum birefringence in the strong field regime can be calculated using a rate approach suitable for Monte Carlo simulation codes. Results for the flipping of the photon’s polarisation (helicity) are benchmarked with evaluation of exact expressions in a circularly (linearly) polarised plane wave of finite extent. For the circularly polarised case, the Heisenberg–Euler approach predicts a null result; an approximation similar to the ‘locally constant’ form is presented, which recovers the correct low-energy scaling. Example probabilities are given for typical experimental parameters.

Topics & Concepts

PhysicsBirefringenceMonochromatic colorPlane waveScalingAdiabatic processMonte Carlo methodNull (SQL)Monochromatic electromagnetic plane waveHelicityOpticsQuantum mechanicsComputational physicsMathematicsGeometryComputer scienceStatisticsDatabaseLaser-Plasma Interactions and DiagnosticsHigh-pressure geophysics and materialsLaser-Matter Interactions and Applications
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