Low-density tin targets for efficient extreme ultraviolet light emission from laser-produced plasmas

Influence of initial density of tin (Sn) targets has been quantitatively investigated for efficient extreme ultraviolet light emission from laser-produced plasmas. With a decrease in the initial density, conversion efficiency (CE) from incident laser energy to output 13.5nm light energy in a 2% band...

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Veröffentlicht in:	Applied physics letters 2006-04, Vol.88 (16)
Hauptverfasser:	Okuno, Tomoharu, Fujioka, Shinsuke, Nishimura, Hiroaki, Tao, Yezheng, Nagai, Keiji, Gu, Qincui, Ueda, Nobuyoshi, Ando, Tsuyoshi, Nishihara, Katsunobu, Norimatsu, Takayoshi, Miyanaga, Noriaki, Izawa, Yasukazu, Mima, Kunioki, Sunahara, Atsushi, Furukawa, Hiroyuki, Sasaki, Akira
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Schlagworte:	70 PLASMA PHYSICS AND FUSION TECHNOLOGY EXTREME ULTRAVIOLET RADIATION LASER-PRODUCED PLASMA MICROSTRUCTURE NEODYMIUM LASERS PHOTON EMISSION PLASMA DENSITY PLASMA DIAGNOSTICS PULSES TIN TIN OXIDES WAVELENGTHS
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container_issue	16
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container_title	Applied physics letters
container_volume	88
creator	Okuno, Tomoharu Fujioka, Shinsuke Nishimura, Hiroaki Tao, Yezheng Nagai, Keiji Gu, Qincui Ueda, Nobuyoshi Ando, Tsuyoshi Nishihara, Katsunobu Norimatsu, Takayoshi Miyanaga, Noriaki Izawa, Yasukazu Mima, Kunioki Sunahara, Atsushi Furukawa, Hiroyuki Sasaki, Akira
description	Influence of initial density of tin (Sn) targets has been quantitatively investigated for efficient extreme ultraviolet light emission from laser-produced plasmas. With a decrease in the initial density, conversion efficiency (CE) from incident laser energy to output 13.5nm light energy in a 2% bandwidth increases; 2.2% of the peak CE was attained with use of 7% low-density SnO2 targets (0.49g∕cm3) irradiated with a Nd:YAG laser, of which wavelength, pulse duration, and intensity are, respectively, 1.064μm, 10ns, and 5×1010W∕cm2. The peak CE is 1.7 times higher than that obtained with the use of solid density Sn targets. Experimental results may be attributed to the influence of the initial density and/or microstructure of the targets on expansion dynamics of the plasmas.
doi_str_mv	10.1063/1.2195693
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With a decrease in the initial density, conversion efficiency (CE) from incident laser energy to output 13.5nm light energy in a 2% bandwidth increases; 2.2% of the peak CE was attained with use of 7% low-density SnO2 targets (0.49g∕cm3) irradiated with a Nd:YAG laser, of which wavelength, pulse duration, and intensity are, respectively, 1.064μm, 10ns, and 5×1010W∕cm2. The peak CE is 1.7 times higher than that obtained with the use of solid density Sn targets. Experimental results may be attributed to the influence of the initial density and/or microstructure of the targets on expansion dynamics of the plasmas.</abstract><cop>United States</cop><doi>10.1063/1.2195693</doi></addata></record>
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subjects	70 PLASMA PHYSICS AND FUSION TECHNOLOGY EXTREME ULTRAVIOLET RADIATION LASER-PRODUCED PLASMA MICROSTRUCTURE NEODYMIUM LASERS PHOTON EMISSION PLASMA DENSITY PLASMA DIAGNOSTICS PULSES TIN TIN OXIDES WAVELENGTHS
title	Low-density tin targets for efficient extreme ultraviolet light emission from laser-produced plasmas
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