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Structural, optical and electronic properties of K2Ba(NO3)4 crystal. / Isaenko, L. I.; Korzhneva, K. E.; Goryainov, S. V. и др.

в: Physica B: Condensed Matter, Том 531, 15.02.2018, стр. 149-158.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Isaenko, LI, Korzhneva, KE, Goryainov, SV, Goloshumova, AA, Sheludyakova, LA, Bekenev, VL & Khyzhun, OY 2018, 'Structural, optical and electronic properties of K2Ba(NO3)4 crystal', Physica B: Condensed Matter, Том. 531, стр. 149-158. https://doi.org/10.1016/j.physb.2017.12.035

APA

Isaenko, L. I., Korzhneva, K. E., Goryainov, S. V., Goloshumova, A. A., Sheludyakova, L. A., Bekenev, V. L., & Khyzhun, O. Y. (2018). Structural, optical and electronic properties of K2Ba(NO3)4 crystal. Physica B: Condensed Matter, 531, 149-158. https://doi.org/10.1016/j.physb.2017.12.035

Vancouver

Isaenko LI, Korzhneva KE, Goryainov SV, Goloshumova AA, Sheludyakova LA, Bekenev VL и др. Structural, optical and electronic properties of K2Ba(NO3)4 crystal. Physica B: Condensed Matter. 2018 февр. 15;531:149-158. doi: 10.1016/j.physb.2017.12.035

Author

Isaenko, L. I. ; Korzhneva, K. E. ; Goryainov, S. V. и др. / Structural, optical and electronic properties of K2Ba(NO3)4 crystal. в: Physica B: Condensed Matter. 2018 ; Том 531. стр. 149-158.

BibTeX

@article{0623c5972b3c43269cfdaca65859de3e,
title = "Structural, optical and electronic properties of K2Ba(NO3)4 crystal",
abstract = "Nitrate crystals reveal nonlinear optical properties and could be considered as converters of laser radiation in the short-wave region. The conditions for obtaining and basic properties of K2Ba(NO3)4 double nitrate crystals were investigated. Crystal growth was implemented by slow cooling in the temperature range of 72–49 °C and low rate evaporation. The structural analysis of K2Ba(NO3)4 formation on the basis of two mixed simple nitrate structures is discussed. The main groups of oscillations in K2Ba(NO3)4 crystal were revealed using Raman and IR spectroscopy, and the table of vibrations for this compound was compiled. The electronic structure of K2Ba(NO3)4 was elucidated in the present work from both experimental and theoretical viewpoints. In particular, X-ray photoelectron spectroscopy (XPS) was employed in the present work to measure binding energies of the atoms constituting the titled compound and its XPS valence-band spectrum for both pristine and Ar+ ion-bombarded surfaces. Further, total and partial densities of states of constituent atoms of K2Ba(NO3)4 have been calculated. The calculations reveal that the O 2p states dominate in the total valence-band region of K2Ba(NO3)4 except of its bottom, where K 3p and Ba 5p states are the principal contributors, while the bottom of the conduction band is composed mainly of the unoccupied O 2p states, with somewhat smaller contributions of the N 2p∗ states as well. With respect to the occupation of the valence band by the O 2p states, the present band-structure calculations are confirmed by comparison on a common energy scale of the XPS valence-band spectrum and the X-ray emission O Kα band for the K2Ba(NO3)4 crystal under study. Furthermore, the present calculations indicate that the K2Ba(NO3)4 compound is a direct-gap material.",
keywords = "Ab initio calculations, Electronic structure, Optical properties, X-ray emission spectroscopy, X-ray photoelectron spectroscopy, SR(NO3)2, BA(NO3)2, KTIOASO4, PB(NO3)2, SPECTROSCOPY, XPS, SPECTRA, MORPHOLOGY",
author = "Isaenko, {L. I.} and Korzhneva, {K. E.} and Goryainov, {S. V.} and Goloshumova, {A. A.} and Sheludyakova, {L. A.} and Bekenev, {V. L.} and Khyzhun, {O. Y.}",
year = "2018",
month = feb,
day = "15",
doi = "10.1016/j.physb.2017.12.035",
language = "English",
volume = "531",
pages = "149--158",
journal = "Physica B: Condensed Matter",
issn = "0921-4526",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Structural, optical and electronic properties of K2Ba(NO3)4 crystal

AU - Isaenko, L. I.

AU - Korzhneva, K. E.

AU - Goryainov, S. V.

AU - Goloshumova, A. A.

AU - Sheludyakova, L. A.

AU - Bekenev, V. L.

AU - Khyzhun, O. Y.

PY - 2018/2/15

Y1 - 2018/2/15

N2 - Nitrate crystals reveal nonlinear optical properties and could be considered as converters of laser radiation in the short-wave region. The conditions for obtaining and basic properties of K2Ba(NO3)4 double nitrate crystals were investigated. Crystal growth was implemented by slow cooling in the temperature range of 72–49 °C and low rate evaporation. The structural analysis of K2Ba(NO3)4 formation on the basis of two mixed simple nitrate structures is discussed. The main groups of oscillations in K2Ba(NO3)4 crystal were revealed using Raman and IR spectroscopy, and the table of vibrations for this compound was compiled. The electronic structure of K2Ba(NO3)4 was elucidated in the present work from both experimental and theoretical viewpoints. In particular, X-ray photoelectron spectroscopy (XPS) was employed in the present work to measure binding energies of the atoms constituting the titled compound and its XPS valence-band spectrum for both pristine and Ar+ ion-bombarded surfaces. Further, total and partial densities of states of constituent atoms of K2Ba(NO3)4 have been calculated. The calculations reveal that the O 2p states dominate in the total valence-band region of K2Ba(NO3)4 except of its bottom, where K 3p and Ba 5p states are the principal contributors, while the bottom of the conduction band is composed mainly of the unoccupied O 2p states, with somewhat smaller contributions of the N 2p∗ states as well. With respect to the occupation of the valence band by the O 2p states, the present band-structure calculations are confirmed by comparison on a common energy scale of the XPS valence-band spectrum and the X-ray emission O Kα band for the K2Ba(NO3)4 crystal under study. Furthermore, the present calculations indicate that the K2Ba(NO3)4 compound is a direct-gap material.

AB - Nitrate crystals reveal nonlinear optical properties and could be considered as converters of laser radiation in the short-wave region. The conditions for obtaining and basic properties of K2Ba(NO3)4 double nitrate crystals were investigated. Crystal growth was implemented by slow cooling in the temperature range of 72–49 °C and low rate evaporation. The structural analysis of K2Ba(NO3)4 formation on the basis of two mixed simple nitrate structures is discussed. The main groups of oscillations in K2Ba(NO3)4 crystal were revealed using Raman and IR spectroscopy, and the table of vibrations for this compound was compiled. The electronic structure of K2Ba(NO3)4 was elucidated in the present work from both experimental and theoretical viewpoints. In particular, X-ray photoelectron spectroscopy (XPS) was employed in the present work to measure binding energies of the atoms constituting the titled compound and its XPS valence-band spectrum for both pristine and Ar+ ion-bombarded surfaces. Further, total and partial densities of states of constituent atoms of K2Ba(NO3)4 have been calculated. The calculations reveal that the O 2p states dominate in the total valence-band region of K2Ba(NO3)4 except of its bottom, where K 3p and Ba 5p states are the principal contributors, while the bottom of the conduction band is composed mainly of the unoccupied O 2p states, with somewhat smaller contributions of the N 2p∗ states as well. With respect to the occupation of the valence band by the O 2p states, the present band-structure calculations are confirmed by comparison on a common energy scale of the XPS valence-band spectrum and the X-ray emission O Kα band for the K2Ba(NO3)4 crystal under study. Furthermore, the present calculations indicate that the K2Ba(NO3)4 compound is a direct-gap material.

KW - Ab initio calculations

KW - Electronic structure

KW - Optical properties

KW - X-ray emission spectroscopy

KW - X-ray photoelectron spectroscopy

KW - SR(NO3)2

KW - BA(NO3)2

KW - KTIOASO4

KW - PB(NO3)2

KW - SPECTROSCOPY

KW - XPS

KW - SPECTRA

KW - MORPHOLOGY

UR - http://www.scopus.com/inward/record.url?scp=85038827869&partnerID=8YFLogxK

U2 - 10.1016/j.physb.2017.12.035

DO - 10.1016/j.physb.2017.12.035

M3 - Article

AN - SCOPUS:85038827869

VL - 531

SP - 149

EP - 158

JO - Physica B: Condensed Matter

JF - Physica B: Condensed Matter

SN - 0921-4526

ER -

ID: 9160136