Effect of implanted ion species on the decay kinetics of 2.7 eV photoluminescence in thermal SiO2 films

Kwang Soo Seol; Yoshimichi Ohki; Hiroyuki Nishikawa; Makoto Takiyama; Yoshimasa Hama

doi:10.1063/1.363713

Effect of implanted ion species on the decay kinetics of 2.7 eV photoluminescence in thermal SiO₂ films

Kwang Soo Seol, Yoshimichi Ohki, Hiroyuki Nishikawa, Makoto Takiyama, Yoshimasa Hama

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31 Citations (Scopus)

Abstract

Decay kinetics of photoluminescence (PL) existing around 2.7 eV has been studied in various ion-implanted thermal SiO² films as a function of implantation conditions. The PL observed in many samples shows decay constants shorter than 10 ms, which is a well-observed decay constant for silica glass. The change in the decay constant and that in the PL intensity have been found to be systematically related with the mass and the dose of the implanted ions. Therefore, despite the short decay constant, the present 2.7 eV PL is attributable to a triplet-to-singlet transition of oxygen deficient centers, as in the case of silica glass. The rapid decay is interpreted as the increase in spin-orbit coupling interaction due to structural deformations by ion implantation such as the formation of paramagnetic defects and/or densification.

Original language	English
Pages (from-to)	6444-6447
Number of pages	4
Journal	Journal of Applied Physics
Volume	80
Issue number	11
DOIs	https://doi.org/10.1063/1.363713
Publication status	Published - 1996 Dec 1
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy(all)

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abstract = "Decay kinetics of photoluminescence (PL) existing around 2.7 eV has been studied in various ion-implanted thermal SiO2 films as a function of implantation conditions. The PL observed in many samples shows decay constants shorter than 10 ms, which is a well-observed decay constant for silica glass. The change in the decay constant and that in the PL intensity have been found to be systematically related with the mass and the dose of the implanted ions. Therefore, despite the short decay constant, the present 2.7 eV PL is attributable to a triplet-to-singlet transition of oxygen deficient centers, as in the case of silica glass. The rapid decay is interpreted as the increase in spin-orbit coupling interaction due to structural deformations by ion implantation such as the formation of paramagnetic defects and/or densification.",

author = "Seol, {Kwang Soo} and Yoshimichi Ohki and Hiroyuki Nishikawa and Makoto Takiyama and Yoshimasa Hama",

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T1 - Effect of implanted ion species on the decay kinetics of 2.7 eV photoluminescence in thermal SiO2 films

AU - Seol, Kwang Soo

AU - Ohki, Yoshimichi

AU - Nishikawa, Hiroyuki

AU - Takiyama, Makoto

AU - Hama, Yoshimasa

PY - 1996/12/1

Y1 - 1996/12/1

N2 - Decay kinetics of photoluminescence (PL) existing around 2.7 eV has been studied in various ion-implanted thermal SiO2 films as a function of implantation conditions. The PL observed in many samples shows decay constants shorter than 10 ms, which is a well-observed decay constant for silica glass. The change in the decay constant and that in the PL intensity have been found to be systematically related with the mass and the dose of the implanted ions. Therefore, despite the short decay constant, the present 2.7 eV PL is attributable to a triplet-to-singlet transition of oxygen deficient centers, as in the case of silica glass. The rapid decay is interpreted as the increase in spin-orbit coupling interaction due to structural deformations by ion implantation such as the formation of paramagnetic defects and/or densification.

AB - Decay kinetics of photoluminescence (PL) existing around 2.7 eV has been studied in various ion-implanted thermal SiO2 films as a function of implantation conditions. The PL observed in many samples shows decay constants shorter than 10 ms, which is a well-observed decay constant for silica glass. The change in the decay constant and that in the PL intensity have been found to be systematically related with the mass and the dose of the implanted ions. Therefore, despite the short decay constant, the present 2.7 eV PL is attributable to a triplet-to-singlet transition of oxygen deficient centers, as in the case of silica glass. The rapid decay is interpreted as the increase in spin-orbit coupling interaction due to structural deformations by ion implantation such as the formation of paramagnetic defects and/or densification.

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Effect of implanted ion species on the decay kinetics of 2.7 eV photoluminescence in thermal SiO₂ films

Abstract

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