Charge distribution and optical properties of F+ and F centres in KNbO3 crystals

E. A. Kotomin; R. I. Eglitis; A. I. Popov

doi:10.1088/0953-8984/9/22/001

Charge distribution and optical properties of F⁺ and F centres in KNbO₃ crystals

Pētījuma izpildes rezultāts: Devums žurnālam › Zinātniskais raksts (žurnālā) › koleģiāli recenzēts

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Kopsavilkums

Results of quantum chemical calculations for the F⁺ and F centres in cubic and orthorhombic phases of a KNbO₃ perovskite ferroelectric are presented and analysed in the light of existing experimental literature. It is shown that one (two) electrons of the F⁺ and F centres, respectively, are considerably delocalized, even in the ground state of defects, over the two Nb atoms nearest to the O vacancy, and other close atoms. They resemble more electron defects in partly covalent SiO₂ crystals (the so-called E'₁ centre) than F-type centres in ionic MgO crystals. We predict two or three absorption bands (depending on the crystalline phase) for each of the defects. The calculated absorption energies for the F⁺ centre are by 0.3–0.4 eV lower than those for the F centre.

Oriģinālvaloda	Angļu
Lapas (no-līdz)	L315-L321
Žurnāls	Journal of Physics Condensed Matter
Sējums	9
Izdevuma numurs	22
DOIs	https://doi.org/10.1088/0953-8984/9/22/001
Publikācijas statuss	Publicēts - jūn. 1997

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abstract = "Results of quantum chemical calculations for the F+ and F centres in cubic and orthorhombic phases of a KNbO3 perovskite ferroelectric are presented and analysed in the light of existing experimental literature. It is shown that one (two) electrons of the F+ and F centres, respectively, are considerably delocalized, even in the ground state of defects, over the two Nb atoms nearest to the O vacancy, and other close atoms. They resemble more electron defects in partly covalent SiO2 crystals (the so-called E'1 centre) than F-type centres in ionic MgO crystals. We predict two or three absorption bands (depending on the crystalline phase) for each of the defects. The calculated absorption energies for the F+ centre are by 0.3–0.4 eV lower than those for the F centre.",

author = "Kotomin, \{E. A.\} and Eglitis, \{R. I.\} and Popov, \{A. I.\}",

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N2 - Results of quantum chemical calculations for the F+ and F centres in cubic and orthorhombic phases of a KNbO3 perovskite ferroelectric are presented and analysed in the light of existing experimental literature. It is shown that one (two) electrons of the F+ and F centres, respectively, are considerably delocalized, even in the ground state of defects, over the two Nb atoms nearest to the O vacancy, and other close atoms. They resemble more electron defects in partly covalent SiO2 crystals (the so-called E'1 centre) than F-type centres in ionic MgO crystals. We predict two or three absorption bands (depending on the crystalline phase) for each of the defects. The calculated absorption energies for the F+ centre are by 0.3–0.4 eV lower than those for the F centre.

AB - Results of quantum chemical calculations for the F+ and F centres in cubic and orthorhombic phases of a KNbO3 perovskite ferroelectric are presented and analysed in the light of existing experimental literature. It is shown that one (two) electrons of the F+ and F centres, respectively, are considerably delocalized, even in the ground state of defects, over the two Nb atoms nearest to the O vacancy, and other close atoms. They resemble more electron defects in partly covalent SiO2 crystals (the so-called E'1 centre) than F-type centres in ionic MgO crystals. We predict two or three absorption bands (depending on the crystalline phase) for each of the defects. The calculated absorption energies for the F+ centre are by 0.3–0.4 eV lower than those for the F centre.

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