Affiliation:
1. Extreme Light Infrastructure - Nuclear Physics
2. Weizmann Institute of Science
Abstract
With the usage of the postcompression technique, few-cycle joule-class laser pulses are nowadays available extending the state of the art of 100 TW-class laser working at 10 Hz repetition. In this Letter, we explore the potential of wakefield acceleration when driven with such pulses. The numerical modeling predicts that 50% of the laser pulse energy can be transferred into electrons with energy above 15 MeV, and with charge exceeding several nanocoulombs for the electrons at hundreds of MeV energy. In such a regime, the laser pulse depletes its energy to plasma rapidly driving a strong cavitated wakefield. The self-steepening effect induces a continuous prolongation of a bubble resulting in a massive continuous self-injection that explains the extremely high charge of the beam rending this approach suitable for promoting Bremsstrahlung emitter and generator of tertiary particles, including neutrons released through photonuclear reactions.
Published by the American Physical Society
2024
Funder
European Regional Development Fund
Ministerul Cercetării şi Inovării
Ministerstvo Školství, Mládeže a Tělovýchovy
Publisher
American Physical Society (APS)