Enhancement of Laser-Driven Proton Beams Using Nanostructured Solid Foils

Simon Vallières; Simon Vallières; Massimiliano Scisciò; Massimiliano Scisciò; Simona Veltri; Simona Veltri; Marianna Barberio; Marianna Barberio; Emmanuel d’Humières; Patrizio Antici; Patrizio Antici

doi:10.1364/HILAS.2018.HM3A.6

High-Brightness Sources and Light-driven Interactions
OSA Technical Digest (online) (Optica Publishing Group, 2018),
paper HM3A.6
•https://doi.org/10.1364/HILAS.2018.HM3A.6

Enhancement of Laser-Driven Proton Beams Using Nanostructured Solid Foils

Simon Vallières, Massimiliano Scisciò, Simona Veltri, Marianna Barberio, Emmanuel d’Humières, and Patrizio Antici

High Intensity Lasers and High Field Phenomena 2018

Strasbourg France
26–28 March 2018
ISBN: 978-1-943580-40-8

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Laser driven particle beams and radiation (HM3A)

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S. Vallières, M. Scisciò, S. Veltri, M. Barberio, E. d’Humières, and P. Antici, "Enhancement of Laser-Driven Proton Beams Using Nanostructured Solid Foils," in High-Brightness Sources and Light-driven Interactions, OSA Technical Digest (online) (Optica Publishing Group, 2018), paper HM3A.6.

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Abstract

We present recent advances with the use of nanostructured solid foils, which allow to improve the proton beam characteristics in the context laser-driven particle acceleration. We show that they are able to increase the laser energy absorption compared to what can be achieved with conventional targets and are produced with a method that is much simpler and cheaper than conventional lithographic processes. The results of 2D PIC simulations are shown for nanowires and nanospheres compared to classical targets, along with preliminary experimental validations obtained at the JLF-TITAN laser at LLNL and also on the LULI-ELFIE laser at École Polytechnique de Paris.

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