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Electronic and optical properties of Germanium-doped (Ge-doped) silica optical fiber are investigated by employing first-principle methods. The substitution of a Ge atom with a Silicon (Si) atom or an Oxygen… Click to show full abstract
Electronic and optical properties of Germanium-doped (Ge-doped) silica optical fiber are investigated by employing first-principle methods. The substitution of a Ge atom with a Silicon (Si) atom or an Oxygen (O) atom in different “Si–O–Si” membered rings is analyzed. Compared with the experimental data observed at around 5 eV, our calculated results reveal that the characteristic absorption peak at 5.12 eV may be caused by Si–Ge–Si defect in 5-membered ring (5MR). Our study of Ge-doped approach in different ring structures will be useful in the application of Ge-doped optical fiber sensing.
Journal Title: Modern Physics Letters B
Year Published: 2019
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