Luminescence properties of chlorine molecules in glassy SiO2 and optical fibre waveguides
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Author
Skuja, Linards
Kajihara, Koichi
Smits, Krisjanis
Alps, Kalvis
Silins, Andrejs
Teteris, Janis
Date
2017Metadata
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Glassy SiO2 is the basic material for optical fibre waveguides and manufacturing-induced Cl impurities reduce their transparency in UV spectral range. This work reports in-depth study/spectroscopic parameters of the near-infrared (1.23 eV) low-temperature photo-luminescence (PL) of interstitial Cl2 molecules in SiO2. The zero-phonon line position was estimated at 2.075 eV on the basis of anharmonicity of Cl2 PL vibronic data. The vibronic sub-bands are broadened by coupling to phonons and by an additional contribution from the glassy disorder. The Huang‒Rhys factor is ≈13. The PL decay time is between 1 and 10 ms in the temperature range 100 K‒13 K and can be reproduced by 3 exponents. Cl2 PL retains relatively high quantum yield and its characteristic structured shape, when the temperature is increased from 13 K to the liquid nitrogen temperature. This allows using it conveniently as a high-sensitivity diagnostic tool for detecting Cl2 impurities in optical fibre waveguides. Time-resolved measurements of optical fibre waveguides indicate that the lower detection limit is below 1010 Cl2/cm3.
URI
https://dspace.lu.lv/dspace/handle/7/52354https://www.kirj.ee/public/proceedings_pdf/2017/issue_4/proc-2017-4-455-561.pdf