Laser ion-acceleration scaling laws seen in multiparametric particle-in-cell simulations

Laser ion-acceleration scaling laws seen in multiparametric particle-in-cell simulations

The ion acceleration driven by a laser pulse at intensity I= 10(20)-10(22) W/cm(2) x (microm/lambda)(2) from a double layer target is investigated with multiparametric particle-in-cell simulations. For targets with a wide range of thickness l and density n(e), at a given intensity, the highest ion e...

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Veröffentlicht in:Physical review letters 2006-03, Vol.96 (10), p.105001-105001, Article 105001
Hauptverfasser: Esirkepov, T, Yamagiwa, M, Tajima, T
Format: Artikel
Sprache:eng
Schlagworte:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
ACCELERATION
CHARGED-PARTICLE TRANSPORT
ELECTRONS
IONS
LASER RADIATION
LASERS
LIGHT TRANSMISSION
PLASMA
PLASMA DENSITY
PLASMA GUNS
PLASMA PRODUCTION
PLASMA SIMULATION
PULSES
RADIATION PRESSURE
SCALING LAWS
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Zusammenfassung:The ion acceleration driven by a laser pulse at intensity I= 10(20)-10(22) W/cm(2) x (microm/lambda)(2) from a double layer target is investigated with multiparametric particle-in-cell simulations. For targets with a wide range of thickness l and density n(e), at a given intensity, the highest ion energy gain occurs at certain electron areal density of the target sigma = n(e)l, which is proportional to the square root of intensity. In the case of thin targets and optimal laser pulse duration, the ion maximum energy scales as the square root of the laser pulse power. When the radiation pressure of the laser field becomes dominant, the ion maximum energy becomes proportional to the laser pulse energy.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.96.105001