Formation of the ion current of a high-temperature femtosecond laser plasma on the target surface containing an impurity layer

The effect of an impurity film lying on the surface of a target in a vacuum of up to 10{sup -5} Torr on the ion acceleration in a plasma, which is formed by a 2x10{sup 16}-W cm{sup -2} femtosecond laser pulse is studied using the time-of-flight and mass spectrometry techniques. It is shown that, und...

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Veröffentlicht in:	Quantum electronics (Woodbury, N.Y.) N.Y.), 2003-11, Vol.33 (11), p.981-986
Hauptverfasser:	Volkov, Roman V, Golishnikov, D M, Gordienko, Vyacheslav M, Dzhidzhoev, M S, Lachko, I M, Mar'in, B V, Mikheev, Pavel M, Savel'ev, Andrei B, Uryupina, D S, Shashkov, Alexander A
Format:	Artikel
Sprache:	eng
Schlagworte:	70 PLASMA PHYSICS AND FUSION TECHNOLOGY ACCELERATION BARYONS CHARGED PARTICLES CLEANING CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY CURRENTS ELEMENTARY PARTICLES ENERGY RANGE FERMIONS HADRONS HEATING IMPURITIES IONS KEV RANGE LASER-PRODUCED PLASMA MASS SPECTROSCOPY NUCLEONS PLASMA PLASMA ACCELERATION PLASMA IMPURITIES PROTONS PULSES SPECTROSCOPY SURFACE CLEANING SURFACE FINISHING SURFACES TEMPERATURE RANGE TEMPERATURE RANGE 0400-1000 K THIN FILMS TIME-OF-FLIGHT METHOD
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Zusammenfassung:	The effect of an impurity film lying on the surface of a target in a vacuum of up to 10{sup -5} Torr on the ion acceleration in a plasma, which is formed by a 2x10{sup 16}-W cm{sup -2} femtosecond laser pulse is studied using the time-of-flight and mass spectrometry techniques. It is shown that, under such conditions, the maximum mean energy per unit charge (8 keV) is gained by protons, whereas the ions constituting the target substance (Si, Ti) acquire an energy per unit charge of
ISSN:	1063-7818 1468-4799
DOI:	10.1070/QE2003v033n11ABEH002534