Direct experimental evidence of back-surface ion acceleration from laser-irradiated gold foils

Direct experimental evidence of back-surface ion acceleration from laser-irradiated gold foils

Au foils were irradiated with a 100-TW, 100-fs laser at intensities greater than 10(20) W/cm2 producing proton beams with a total yield of approximately 10(11) and maximum proton energy of >9 MeV. Removing contamination from the back surface of Au foils with an Ar-ion sputter gun reduced the tota...

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Veröffentlicht in:Physical review letters 2004-12, Vol.93 (26), p.265004.1-265004.4, Article 265004
Hauptverfasser: ALIEN, Matthew, PATEL, Pravesh K, MACKINNON, Andrew, PRICE, Dwight, WILKS, Scott, MORSE, Edward
Format: Artikel
Sprache:eng
Schlagworte:
Exact sciences and technology
Laser-plasma interactions
Particle measurements
Particle-in-cell method
Physics
Physics of gases, plasmas and electric discharges
Physics of plasmas and electric discharges
Plasma diagnostic techniques and instrumentation
Plasma simulation
X-ray, gamma-ray and particle generation
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Zusammenfassung:Au foils were irradiated with a 100-TW, 100-fs laser at intensities greater than 10(20) W/cm2 producing proton beams with a total yield of approximately 10(11) and maximum proton energy of >9 MeV. Removing contamination from the back surface of Au foils with an Ar-ion sputter gun reduced the total yield of accelerated protons to less than 1% of the yield observed without removing contamination. Removing contamination from the front surface (laser-interaction side) of the target had no observable effect on the proton beam. We present a one-dimensional particle-in-cell simulation that models the experiment. Both experimental and simulation results are consistent with the back-surface acceleration mechanism described in the text.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.93.265004