Enhanced laser-driven ion acceleration in the relativistic transparency regime

Enhanced laser-driven ion acceleration in the relativistic transparency regime

We report on the acceleration of ion beams from ultrathin diamondlike carbon foils of thickness 50, 30, and 10 nm irradiated by ultrahigh contrast laser pulses at intensities of approximately 7 x 10;{19} W/cm;{2}. An unprecedented maximum energy of 185 MeV (15 MeV/u) for fully ionized carbon atoms i...

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Veröffentlicht in:Physical review letters 2009-07, Vol.103 (4), p.045002-045002, Article 045002
Hauptverfasser: Henig, A, Kiefer, D, Markey, K, Gautier, D C, Flippo, K A, Letzring, S, Johnson, R P, Shimada, T, Yin, L, Albright, B J, Bowers, K J, Fernández, J C, Rykovanov, S G, Wu, H-C, Zepf, M, Jung, D, Liechtenstein, V Kh, Schreiber, J, Habs, D, Hegelich, B M
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Sprache:eng
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Zusammenfassung:We report on the acceleration of ion beams from ultrathin diamondlike carbon foils of thickness 50, 30, and 10 nm irradiated by ultrahigh contrast laser pulses at intensities of approximately 7 x 10;{19} W/cm;{2}. An unprecedented maximum energy of 185 MeV (15 MeV/u) for fully ionized carbon atoms is observed at the optimum thickness of 30 nm. The enhanced acceleration is attributed to self-induced transparency, leading to strong volumetric heating of the classically overdense electron population in the bulk of the target. Our experimental results are supported by both particle-in-cell (PIC) simulations and an analytical model.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.103.045002