Empirical scaling laws for self-focused laser pulses in nitrogen plasmas

Abstract

We investigate the interaction between a superintense laser pulse and a nitrogen plasma with densities exceeding 1019\,cm-3, using particle-in-cell simulations. Such configurations have recently demonstrated the capability to produce highly charged electron beams (i.e., >10\,nC) with 1\,J-class lasers, a significant step toward high-average-current laser-plasma accelerators. Our study focuses on analyzing the impact of laser self-focusing on laser dynamics, leading to scaling laws that characterize beam diffraction, wakefield amplitude and plasma structures, providing important insights of this interaction regime.