Energy absorption in the laser-QED regime

Energy absorption in the laser-QED regime

Abstract A theoretical and numerical investigation of non-ponderomotive absorption at laser intensities relevant to quantum electrodynamics is presented. It is predicted that there is a regime change in the dependence of fast electron energy on incident laser energy that coincides with the onset of...

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Autores principales: Alex F. Savin, Aimee J. Ross, Ramy Aboushelbaya, Marko W. Mayr, Ben Spiers, Robin H.-W. Wang, Peter A. Norreys
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2019
Materias:
Medicine
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Science
Q
Acceso en línea:https://doaj.org/article/c939aeaa53964cab9564efa2c269f9e4
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Sumario:Abstract A theoretical and numerical investigation of non-ponderomotive absorption at laser intensities relevant to quantum electrodynamics is presented. It is predicted that there is a regime change in the dependence of fast electron energy on incident laser energy that coincides with the onset of pair production via the Breit-Wheeler process. This prediction is numerically verified via an extensive campaign of QED-inclusive particle-in-cell simulations. The dramatic nature of the power law shift leads to the conclusion that this process is a candidate for an unambiguous signature that future experiments on multi-petawatt laser facilities have truly entered the QED regime.

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