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arxiv: 1901.07965 · v2 · pith:IARP5NEUnew · submitted 2019-01-23 · ⚛️ physics.acc-ph · physics.plasm-ph

Radiation rebound and Quantum Splash in Electron-Laser Collision

classification ⚛️ physics.acc-ph physics.plasm-ph
keywords classicalelectronlaserquantumradiationreboundbunchcollision
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The radiation reaction (RR) is expected to play a critical role in light-matter interactions at extreme intensity. Utilizing the theoretical analyses and three-dimensional (3D) numerical simulations, we demonstrate that electron reflection, induced by the RR in a head-on collision with an intense laser pulse, can provide pronounced signatures to discern the classical and quantum RR. In the classical regime, there is a precipitous threshold of laser intensity to achieve the whole electron bunch rebound. However, this threshold becomes a gradual transition in the quantum regime, where the electron bunch is quasi-isotropically scattered by the laser pulse and this process resembles a water splash. Leveraged on the derived dependence of classical radiation rebound on the parameters of laser pulses and electron bunches, a practical detecting method is proposed to distinguish the quantum discrete recoil and classical continuous RR force.

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