Scaling of laser-driven electron and proton acceleration as a function of laser pulse duration, energy, and intensity in the multi-picosecond regime

Author(s)

Simpson, Raspberry A; Winslow, Lindley; Gatu Johnson, Maria; Frenje, Johan A

Abstract

© 2021 Author(s). A scaling study of short-pulse laser-driven proton and electron acceleration was conducted as a function of pulse duration, laser energy, and laser intensity in the multi-picosecond (ps) regime (∼0.8 ps-20 ps). Maximum proton energies significantly greater than established scaling laws were observed, consistent with observations at other multi-ps laser facilities. In addition, maximum proton energies and electron temperatures in this regime were found to be strongly dependent on the laser pulse duration and preplasma conditions. A modified proton scaling model is presented that is able to better represent the accelerated proton characteristics in this multi-ps regime.

Date issued

2021

URI

https://hdl.handle.net/1721.1/142359

Department

Massachusetts Institute of Technology. Department of Physics

Journal

Physics of Plasmas

Publisher

AIP Publishing

Citation

Winslow, Lindley. 2021. "Scaling of laser-driven electron and proton acceleration as a function of laser pulse duration, energy, and intensity in the multi-picosecond regime." Physics of Plasmas, 28 (1).

Version: Author's final manuscript