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arxiv: 1811.04741 · v2 · pith:ZWTK7LHWnew · submitted 2018-11-12 · ⚛️ physics.plasm-ph

Quantum Reflection above the Classical Radiation-reaction Barrier in the QED Regime

classification ⚛️ physics.plasm-ph
keywords classicalreflectionregimebarrierelectronelectronsenergieslaser
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The colliding between an ultra-intense laser pulse with a high energy electron beam is not only an important source for high-brightness gamma-rays but also a powerful approach to exploit new physics in the exotic strong-field QED regime. In the cross-colliding geometry, when radiation-reaction (RR) force is interpreted by the classical Landau-Lifshitz equation, we found that there is a distinctive barrier that allows penetration of electrons at energies beyond the barrier and blocks those of lower energies. While in the QED perspective, electrons can be well reflected (transmit) in the regime where complete transmission (reflection) is allowed classically. The reflection (transmission) is guaranteed by the quantum nature of radiation but forbidden by classical description. This effect is accompanied by the blurring of the angular distribution for scattered electrons and becomes significant for laser intensities at $2\times10^{23}\ \mathrm{W/cm^2}$ and electron energies of $\sim 10^2\ \mathrm{MeV}$; thus could be measured in the up-coming 10-100PW laser facilities. By detecting the reflection rate of the energetic electron beam after colliding and resolve the angular distribution, the results are capable of identifying the boundaries between classical and QED approaches in the strong field regime and testifying the various models describing the fundamental process.

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