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Ultrarelativistic electron beams accelerated by terawatt scalable kHz laser

Carlo Maria Lazzarini, G. Grittani, Petr Valenta, Illia Zymak, Roman Antipenkov, Uddhab Chaulagain, Leonardo V. Goncalves, Annika Grenfell, Marcel Lamač, S. Lorenz, Michal Nevrkla, Alexandr Špaček, Václav Šobr, W. Szuba, Pavel Bakule, G. Korn, S. V. Bulanov

2024Physics of Plasmas26 citationsDOIOpen Access PDF

Abstract

We show the laser-driven acceleration of unprecedented, collimated (2 mrad divergence), and quasi-monoenergetic (25% energy spread) electron beams with energy up to 50 MeV at 1 kHz repetition rate. The laser driver is a multi-cycle (15 fs) 1 kHz optical parametric chirped pulse amplification system, operating at 26 mJ (1.7 TW). The scalability of the driver laser technology and the electron beams reported in this work pave the way toward developing high-brilliance x-ray sources for medical imaging and innovative devices for brain cancer treatment and represent a step toward the realization of a kHz GeV electron beamline.

Topics & Concepts

PhysicsElectronLaserPlasmaAtomic physicsScalabilityNuclear physicsOpticsDatabaseComputer scienceLaser-Plasma Interactions and DiagnosticsPulsed Power Technology ApplicationsLaser Design and Applications
Ultrarelativistic electron beams accelerated by terawatt scalable kHz laser | Litcius