Low Temperature Physics: 42, 561 (2016); https://doi.org/10.1063/1.4959014
Физика Низких Температур: Том 42, Выпуск 7 (Июль 2016), c. 716-725    ( к оглавлению , назад )

Luminescence of SiO2 and GeO2 crystals with rutile structure. Comparison with α-quartz crystals and relevant glasses (Review Article)

A.N. Trukhin

Institute of Solid State Physics, University of Latvia, 8 Kengaraga Str., Riga LV-1063, Latvia
E-mail: truhins@cfi.lu.lv; truhins@latnet.lv

Received March 1, 2016


Luminescence properties of SiO2 in different structural states are compared. Similar comparison is made for GeO2. Rutile and α-quartz structures as well as glassy state of these materials are considered. Main results are that for α-quartz crystals the luminescence of self-trapped exciton is the general phenomenon that is absent in the crystal with rutile structure. In rutile structured SiO2 (stishovite) and GeO2 (argutite) the main luminescence is due to a host material defect existing in as-received (as-grown) samples. The defect luminescence possesses specific two bands, one of which has a slow decay (for SiO2 in the blue and for GeO2, in green range) and an-other, a fast ultraviolet (UV) band (4.75 eV in SiO2 and at 3 eV in GeO2). In silica and germania glasses, the luminescence of self-trapped exciton coexists with defect luminescence. The latter also contains two bands: one in the visible range and another in the UV range. The defect luminescence of glasses was studied in details during last 60–70 years and is ascribed to oxygen deficient defects. Analogous defect luminescence in the corresponding pure nonirradiated crystals with α-quartz structure is absent. Only irradiation of a α-quartz crystal by energetic electron beam, γ-rays and neutrons provides defect luminescence analogous to glasses and crystals with rutile structure. Therefore, in glassy state the structure containing tetrahedron motifs is responsible for existence of self-trapped excitons and defects in octahedral motifs are responsible for oxygen deficient defects.

PACS: 61.82.–d Radiation effects on specific materials;
PACS: 61.66.–f Structure of specific crystalline solids;
PACS: 71.35.Aa Frenkel excitons and self-trapped excitons;
PACS: 78.60.–b Other luminescence and radiative recombination.

Key words: SiO2, GeO2, rutile, quartz, glasses, defects, self-trapped excitons, luminescence.

Published online: May 25, 2016