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Stable high repetition-rate laser-driven proton beam production for multidisciplinary applications on the advanced laser light source ion beamline

Elias Catrix, Frédéric Boivin, Kassandra Langlois, Simon Vallières, Canan Yağmur Boynukara, S. Fourmaux, P. Antici

2023Review of Scientific Instruments10 citationsDOI

Abstract

Laser-driven proton accelerators are relevant candidates for many applications such as material science or medicine. Today, there are multi-hundred-TW table-top laser systems that can generate relativistic peak intensities >1018 W/cm2 and routinely reach proton energies in the MeV range. However, for most desired applications, there is still a need to optimize the quality and stability of the laser-generated proton beam. In this work, we developed a 0.625 Hz high repetition-rate setup in which a laser with 2.5% RMS energy stability is irradiating a solid target with an intensity of 1019 to 1020 W/cm2 to explore proton energy and yield variations, both with high shot statistics (up to about 400 laser shots) and using different interaction targets. Investigating the above-mentioned parameters is important for applications that rely on specific parts of the proton spectrum or a high ion flux produced over quick multi-shot irradiation. We demonstrate that the use of a stable "multi-shot mode" allows improving applications, e.g., in the detection of trace elements using laser-driven particle-induced x-ray emission.

Topics & Concepts

BeamlineLaserProtonIonOpticsMaterials scienceBeam (structure)Ion beamRepetition (rhetorical device)Laser beamsOptoelectronicsAtomic physicsNuclear physicsPhysicsPhilosophyLinguisticsQuantum mechanicsLaser-Plasma Interactions and DiagnosticsLaser-Matter Interactions and ApplicationsHigh-pressure geophysics and materials
Stable high repetition-rate laser-driven proton beam production for multidisciplinary applications on the advanced laser light source ion beamline | Litcius