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73Ge, 17O and 29Si hyperfine interactions of the GeE1a2 center in crystalline SiO2
Ea2 centers as fundamental radiation-induced defects in amorphous and crystalline SiO2 have been thought to be related to oxygen vacancies for >50 years. However, direct proof for oxygen vacancies from experimental 17O hyperfine data has never been provided. In this contribution, we report on the...
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Published in: | Journal of magnetic resonance (1997) 2013-08, Vol.233, p.7-16 |
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Main Authors: | , , , |
Format: | Article |
Language: | English |
Subjects: | |
Online Access: | Get full text |
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Summary: | Ea2 centers as fundamental radiation-induced defects in amorphous and crystalline SiO2 have been thought to be related to oxygen vacancies for >50 years. However, direct proof for oxygen vacancies from experimental 17O hyperfine data has never been provided. In this contribution, we report on the most complete set of spin Hamiltonian parameter matrices g, A(73Ge), P(73Ge), A(17O), and A(29Si) for the Ge analog of the classic E1a2 center (denoted GeE1a2), determined from single-crystal electron paramagnetic resonance (EPR) analyses of two fast-electron-irradiated, Ge-doped alpha -quartz samples, including one grown from 17O-enriched water. These experimental data, particularly the three distinct matrices A(17O), not only confirm the GeE1a2 center to represent spin trapping on a substitutional Ge atom coordinated to three nonequivalent nearest-neighbor O atoms (i.e., the GeO moiety involving an oxygen vacancy) and two next-nearest-neighbor Si atoms but also permit determination of the spin population on all of these atoms. These EPR data also have been evaluated by periodic density functional theory (DFT) calculations to demonstrate that the widely popular single-oxygen-vacancy V(O)+ model for the GeE1a2 center cannot account for A(17O) arising from three nonequivalent nearest-neighbor oxygen atoms. A new tri-vacancy with an Al impurity model V(SiO2)Al, on the other hand, reproduces all the EPR experimental hyperfine matrices A(73Ge), A(17O), and A(29Si) and explains the common associations of the Ea2 centers with both Al related defects and superoxide/peroxy radicals in quartz and amorphous silica. |
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ISSN: | 1090-7807 |
DOI: | 10.1016/j.jmr.2013.04.016 |