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Strong signature of one-loop self-energy in polarization resolved nonlinear Compton scattering

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arxiv 2212.02056 v3 pith:XNG2OM53 submitted 2022-12-05 physics.plasm-ph

Strong signature of one-loop self-energy in polarization resolved nonlinear Compton scattering

classification physics.plasm-ph
keywords polarizationeffectelectronsnon-radiativelasercarlocomptoncontribution
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The polarization dynamics of electrons including multiple nonlinear Compton scattering during the interaction of a circularly-polarized ultraintense laser pulse with a counterpropagating ultrarelativistic electron beam is investigated. While electron polarization emerges mostly due to spin-flips at photon emissions, there is a non-radiative contribution to the polarization which stems from the one-loop QED radiative corrections to the self-energy, which admits of a simple physical model. We put forward a method to single out the non-radiative contribution to the polarization, employing the reflection regime of the interaction when the radiation reaction is significant. The polarization of electrons that penetrate in the forward direction through a colliding laser is shown to be dominated by the loop effect, while the reflected electrons are mostly polarized by spin-flips at photon emissions. We confirm this effect by quantum Monte Carlo simulations considering the helicity transfer from the laser field to the electrons, taking into account the opposite sign of the polarizations induced by the non-radiative loop effect and radiative spin-flip. Our Monte Carlo simulations show a polarization signal as high as $\gtrsim 10\%$ from the non-radiative effect, amenable for experimental detection with current technology.

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