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Experimental investigation of hole boring and light sail regimes of RPA by varying laser and target parameters

Authors :
David Neely
Domenico Doria
Mirela Cerchez
Andrea Macchi
Gianluca Sarri
B. Ramakrishna
K. F. Kakolee
Matthew Zepf
Paul McKenna
K. Quinn
Xiaohui Yuan
Satyabrata Kar
Oswald Willi
J. Osterholz
Marco Borghesi
Source :
Plasma physics and controlled fusion, 55 (2013): 124030–124030. doi:10.1088/0741-3335/55/12/124030, info:cnr-pdr/source/autori:Kar, S.; Kakolee, K. F.; Cerchez, M.; Doria, D.; Macchi, A.; McKenna, P.; Neely, D.; Osterholz, J.; Quinn, K.; Ramakrishna, B.; Sarri, G.; Willi, O.; Yuan, X. H.; Zepf, M.; Borghesi, M./titolo:Experimental investigation of hole boring and light sail regimes of RPA by varying laser and target parameters/doi:10.1088%2F0741-3335%2F55%2F12%2F124030/rivista:Plasma physics and controlled fusion (Print)/anno:2013/pagina_da:124030/pagina_a:124030/intervallo_pagine:124030–124030/volume:55
Publication Year :
2013
Publisher :
IOP Publishing, 2013.

Abstract

Temporal evolution of plasma jets from micrometre-scale thick foils following the interaction of intense (3 x 10(20) W cm(-2)) laser pulses is studied systematically by time resolved optical interferometry. The fluid velocity in the plasma jets is determined by comparing the data with 2D hydrodynamic simulation, which agrees with the expected hole-boring (HB) velocity due to the laser radiation pressure. The homogeneity of the plasma density across the jets has been found to be improved substantially when irradiating the laser at circular polarization compared to linear polarization. While overdense plasma jets were formed efficiently for micrometre thick targets, decreasing the target areal density and/or increasing the irradiance on the target have provided indication of transition from the 'HB' to the 'light sail (LS)' regime of RPA, characterized by the appearance of narrow-band spectral features at several MeV/nucleon in proton and carbon spectra.

Details

ISSN :
13616587 and 07413335
Volume :
55
Database :
OpenAIRE
Journal :
Plasma Physics and Controlled Fusion
Accession number :
edsair.doi.dedup.....152028eff189dde00216fd6a389183f7
Full Text :
https://doi.org/10.1088/0741-3335/55/12/124030