Ultrashort Pulse Train Generation on a 100TW Laser Beamline Using a Delay Mask After the Final Focusing Optics

Abstract

Experimental results aimed at demonstrating the feasibility of a two-section delay mask for the generation of ultrashort pulse trains are reported. Based on the initial simulation results, a 500 um thick circular fused silica plate featuring a central aperture was designed to enable two distinct transverse portions of the incident laser pulse to be focused, ideally, with equal intensity. This fulfills one of the requirements of the resonant multipulse ionization injection (ReMPI) scheme for laser wakefield acceleration. The experiment was carried out at the CNR-INO Intense Laser Irradiation Laboratory using a 240 TW laser system operated at 120 TW, as part of the ongoing preparation for the first experimental demonstration of ReMPI.