S. A. Prosandeyev scite author profile

Special features of atomic vacancies in oxides of the perovskite family have been studied within the framework of the Green function method. It has been shown that, in accordance with experiments, the oxygen vacancy has both shallow and comparatively deep levels corresponding to different charge states. The single-charged oxygen vacancy has a deep level and, hence, it could be a good trap for electrons. We shall show that, owing to interaction with the lattice polarization, an electron is captured by one of the neighbours to the vacancy ions. As a result the single-charged oxygen vacancy proves to be a dipole centre. Peculiarities in the optical absorption spectra connected with the single-charged oxygen vacancy are discussed.

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Study of intrinsic point defects in oxides of the perovskite family: II. Experiment

Raevski

Maksimov

Fisenko

et al. 1998

J. Phys.: Condens. Matter

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The electrical conductivity of and perovskite-type oxides converted by vacuum annealing into states with weak and strong compensation between donors and acceptors has been measured. It was shown that the reduced samples had both shallow and comparatively deep levels which were attributed to the neutral and singly-charged oxygen vacancy, respectively. The experimentally determined activation energies are consistent with the results of the theoretical computation reported in Part I.

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Breaking of symmetry of one-electron orbitals at oxygen vacancies in perovskite-type oxides

Prosandeyev

Teslenko

Fisenko

1993

J. Phys.: Condens. Matter

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Could the Oxygen Vacancy in Oxides of the Perovskite Family Be a Dipole Center?

Prosandeyev

Osipenko

1995

Physica Status Solidi (b)

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The lattice polarization in oxides of the perovskite family is demonstrated to give rise to symmetry breaking of one-electron orbitals at F centers. This can provide an explanation of recent experiments on paraelectric KTaO, where, by the second harmonic generation method, approximately lo'* cm-3 dipole centers were found, the concentration of which depends on reduction and oxidation processes. I) Sorge str. 5, 344 104 Rostov-on-Don, Russia.

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Oxygen vacancy in perovskite oxides: Electron structure calculation by the SCF Xα, SW technique

Bunin

Prosandeyev

Gegusin

et al. 1995

Radiation Effects and Defects in Solids

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S. A. Prosandeyev

Study of intrinsic point defects in oxides of the perovskite family: I. Theory

Study of intrinsic point defects in oxides of the perovskite family: II. Experiment

Breaking of symmetry of one-electron orbitals at oxygen vacancies in perovskite-type oxides

Could the Oxygen Vacancy in Oxides of the Perovskite Family Be a Dipole Center?

Oxygen vacancy in perovskite oxides: Electron structure calculation by the SCF Xα, SW technique

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