Laser-induced fluorescence of fused silica irradiated by ArF excimer laser

Laser-induced fluorescence (LIF) of high-purity fused silica irradiated by ArF excimer laser is studied experimentally. LIF bands of the fused silica centered at 281 nm, 478 nm, and 650 nm are observed simultaneously. Furthermore, the angular distribution of the three fluorescence peaks is examined....

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Veröffentlicht in:	Journal of applied physics 2011-07, Vol.110 (1), p.013107-013107-5
Hauptverfasser:	Zhang, Haibo, Yuan, Zhijun, Zhou, Jun, Dong, Jingxing, Wei, Yunrong, Lou, Qihong
Format:	Artikel
Sprache:	eng
Schlagworte:	ABSORPTION ANGULAR DISTRIBUTION ARGON FLUORIDES COLOR CENTERS EMISSION SPECTRA EXCIMER LASERS FLUORESCENCE IRRADIATION LASER RADIATION MATERIALS SCIENCE MULTI-PHOTON PROCESSES PHYSICAL RADIATION EFFECTS POWER DENSITY SILICA SILICON COMPOUNDS
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container_title	Journal of applied physics
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creator	Zhang, Haibo Yuan, Zhijun Zhou, Jun Dong, Jingxing Wei, Yunrong Lou, Qihong
description	Laser-induced fluorescence (LIF) of high-purity fused silica irradiated by ArF excimer laser is studied experimentally. LIF bands of the fused silica centered at 281 nm, 478 nm, and 650 nm are observed simultaneously. Furthermore, the angular distribution of the three fluorescence peaks is examined. Microscopic image of the laser modified fused silica indicates that scattering of the generated fluorescence by laser-induced damage sites is the main reason for the angular distribution of LIF signals. Finally, the dependence of LIF signals intensities of the fused silica on laser power densities is presented. LIF signals show a squared power density dependence, which indicates that laser-induced defects are formed mainly via two-photon absorption processes.
doi_str_mv	10.1063/1.3608163
format	Article
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LIF bands of the fused silica centered at 281 nm, 478 nm, and 650 nm are observed simultaneously. Furthermore, the angular distribution of the three fluorescence peaks is examined. Microscopic image of the laser modified fused silica indicates that scattering of the generated fluorescence by laser-induced damage sites is the main reason for the angular distribution of LIF signals. Finally, the dependence of LIF signals intensities of the fused silica on laser power densities is presented. 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LIF bands of the fused silica centered at 281 nm, 478 nm, and 650 nm are observed simultaneously. Furthermore, the angular distribution of the three fluorescence peaks is examined. Microscopic image of the laser modified fused silica indicates that scattering of the generated fluorescence by laser-induced damage sites is the main reason for the angular distribution of LIF signals. Finally, the dependence of LIF signals intensities of the fused silica on laser power densities is presented. 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LIF bands of the fused silica centered at 281 nm, 478 nm, and 650 nm are observed simultaneously. Furthermore, the angular distribution of the three fluorescence peaks is examined. Microscopic image of the laser modified fused silica indicates that scattering of the generated fluorescence by laser-induced damage sites is the main reason for the angular distribution of LIF signals. Finally, the dependence of LIF signals intensities of the fused silica on laser power densities is presented. LIF signals show a squared power density dependence, which indicates that laser-induced defects are formed mainly via two-photon absorption processes.</abstract><cop>United States</cop><pub>American Institute of Physics</pub><doi>10.1063/1.3608163</doi></addata></record>
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subjects	ABSORPTION ANGULAR DISTRIBUTION ARGON FLUORIDES COLOR CENTERS EMISSION SPECTRA EXCIMER LASERS FLUORESCENCE IRRADIATION LASER RADIATION MATERIALS SCIENCE MULTI-PHOTON PROCESSES PHYSICAL RADIATION EFFECTS POWER DENSITY SILICA SILICON COMPOUNDS
title	Laser-induced fluorescence of fused silica irradiated by ArF excimer laser
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