T. Levato scite author profile

This article appeared in a journal published by Elsevier. The attached copy is furnished to the author for internal non-commercial research and education use, including for instruction at the authors institution and sharing with colleagues.Other uses, including reproduction and distribution, or selling or licensing copies, or posting to personal, institutional or third party websites are prohibited. t r a c tA new facility named SPARC_LAB has been recently launched at the INFN National Laboratories in Frascati, merging the potentialities of the former projects SPARC and PLASMONX. We describe in this paper the status and the future perspectives at the SPARC_LAB facility.

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ELIMAIA: A Laser-Driven Ion Accelerator for Multidisciplinary Applications

Margarone

Cirrone

Cuttone

et al. 2018

QuBS

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The main direction proposed by the community of experts in the field of laser-driven ion acceleration is to improve particle beam features (maximum energy, charge, emittance, divergence, monochromaticity, shot-to-shot stability) in order to demonstrate reliable and compact approaches to be used for multidisciplinary applications, thus, in principle, reducing the overall cost of a laser-based facility compared to a conventional accelerator one and, at the same time, demonstrating innovative and more effective sample irradiation geometries. The mission of the laser-driven ion target area at ELI-Beamlines (Extreme Light Infrastructure) in Dolní Břežany, Czech Republic, called ELI Multidisciplinary Applications of laser-Ion Acceleration (ELIMAIA) , is to provide stable, fully characterized and tuneable beams of particles accelerated by Petawatt-class lasers and to offer them to the user community for multidisciplinary applications. The ELIMAIA beamline has been

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Generation of high pressure shocks relevant to the shock-ignition intensity regime

Batani

Antonelli

Atzeni

et al. 2014

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An experiment was performed using the PALS laser to study laser-target coupling and laser-plasma interaction in an intensity regime 1016 W/cm2, relevant for the “shock ignition” approach to Inertial Confinement Fusion. A first beam at low intensity was used to create an extended preformed plasma, and a second one to create a strong shock. Pressures up to 90 Megabars were inferred. Our results show the importance of the details of energy transport in the overdense region

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Electron radiography using a table-top laser-cluster plasma accelerator

Bussolino¹,

Faenov²,

Giulietti³

et al. 2013

J. Phys. D: Appl. Phys.

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T. Levato

SPARC_LAB present and future

ELIMAIA: A Laser-Driven Ion Accelerator for Multidisciplinary Applications

Generation of high pressure shocks relevant to the shock-ignition intensity regime

Electron radiography using a table-top laser-cluster plasma accelerator

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