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RESEARCH PRODUCT
Photoconversion and dynamic hole recycling process in anion vacancies in neutron-irradiated MgO crystals
R. ParejaRoberto GonzálezEugene A. KotominAnatoli I. PopovAnatoli I. PopovY. ChenM. A. MongeJ. E. Muñoz Santiustesubject
CrystallographyMaterials scienceImpurityNeutron diffractionCenter (category theory)NeutronIrradiationAtomic physicsSpectroscopyExcitationIondescription
Optical spectroscopy and theory demonstrate that photon excitation of the positively charged anion vacancies (F{sup +} centers) at 5.0 eV in neutron-irradiated MgO crystals releases holes that are subsequently trapped at {ital V}-type centers, which are cation vacancies charge compensated by impurities, such as Al{sup 3+}, F{sup {minus}}, and OH{sup {minus}} ions. The concentration of trapped-hole centers was found to exceed that of available anion vacancies. The disproportionately large amount of holes produced is attributed to a dynamic recycling process, by which the F{sup +} center serves to release a hole to the {ital V}-type centers and subsequently trap a hole from an Fe{sup 3+} ion. The net effect was the increase of {ital V}-type centers mostly at the expense of Fe{sup 3+} ions. It was also shown that concurrently there was a component which distributed holes directly from Fe{sup 3+} to the {ital V}-type centers. {copyright} {ital 1999} {ital The American Physical Society}
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1999-08-01 | Physical Review B |