Tin-doped silica samples were prepared by the sol-gel method. Optical absorption and electron paramagnetic resonance measurements were carded out before and after exposure to 266-nm pulsed radiation from the fourth harmonic of the Nd-YAG (yttrium-aluminum-garnet) laser. The laser-induced change of refractive index was analyzed at different power densities (from 1 to 6×107 W/cm2, 6-ns pulse duration) and exposure times. Positive changes of the refractive index up to 4×10-4 were observed. The presence and the consequent laser-induced bleaching of the 5-eV absorption band due to oxygen deficient centers, does not appear relevant, since good positive photosensitivity was observed in samples without detectable absorption at this energy.
Chiodini, N., Ghidini, S., Paleari, A. (2001). Mechanisms responsible for the ultraviolet photosensitivity of SnO2-doped silica. PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS, 64(7) [10.1103/PhysRevB.64.073102].
Mechanisms responsible for the ultraviolet photosensitivity of SnO2-doped silica
CHIODINI, NORBERTO;PALEARI, ALBERTO MARIA FELICE
2001
Abstract
Tin-doped silica samples were prepared by the sol-gel method. Optical absorption and electron paramagnetic resonance measurements were carded out before and after exposure to 266-nm pulsed radiation from the fourth harmonic of the Nd-YAG (yttrium-aluminum-garnet) laser. The laser-induced change of refractive index was analyzed at different power densities (from 1 to 6×107 W/cm2, 6-ns pulse duration) and exposure times. Positive changes of the refractive index up to 4×10-4 were observed. The presence and the consequent laser-induced bleaching of the 5-eV absorption band due to oxygen deficient centers, does not appear relevant, since good positive photosensitivity was observed in samples without detectable absorption at this energy.
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