K. K. Bobkov, A. A. Rybaltovsky, V. V. Vel'miskin, M. E. Likhachev, M. M. Bubnov, E. M. Dianov, A. A. Umnikov, A. N. Gur'yanov, N. N. Vechkanov, I. A. Shestakova, “Charge-transfer state excitation as the main mechanism of the photodarkening process in ytterbium-doped aluminosilicate fibres”, Kvantovaya Elektronika, 2014, Volume 44, Number 12,Pages <nobr>1129

This article is cited in 24 papers

Fibre optics

Charge-transfer state excitation as the main mechanism of the photodarkening process in ytterbium-doped aluminosilicate fibres

K. K. Bobkov^a, A. A. Rybaltovsky^a, V. V. Vel'miskin^a, M. E. Likhachev^a, M. M. Bubnov^a, E. M. Dianov^a, A. A. Umnikov^b, A. N. Gur'yanov^b, N. N. Vechkanov^b, I. A. Shestakova^c

^a Fiber Optics Research Center of the Russian Academy of Sciences, Moscow
^b Institute of Chemistry of High-Purity Substances RAS, Nizhnii Novgorod
^c Polyus Research and Development Institute named after M. F. Stel'makh, Moscow

Abstract: We have studied photodarkening in ytterbium-doped fibre preforms with an aluminosilicate glass core. Analysis of their absorption and luminescence spectra indicates the formation of stable Yb²⁺ ions in the glass network under IR laser pumping at a wavelength λ = 915 nm and under UV irradiation with an excimer laser (λ = 193 nm). We have performed comparative studies of the luminescence spectra of the preforms and crystals under excitation at a wavelength of 193 nm. The mechanism behind the formation of Yb²⁺ ions and aluminium – oxygen hole centres (Al-OHCs), common to ytterbium-doped YAG crystals and aluminosilicate glass, has been identified: photoinduced Yb³⁺ charge-transfer state excitation.

Keywords: photodarkening, divalent ytterbium ions, ytterbium-doped active fibres, fibre laser, charge transfer, oxygen hole centres.

PACS: 42.81.Cn, 42.81.Dp, 32.80.-t

Received: 11.07.2014
Revised: 23.09.2014