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Hexagonal BN : Chemical and structural effects on K-shells excitation: X-ray polaroid effect. / Filatova, Elena. O.; Taracheva, Elena.Yu.; A.Pavlychev, Andrey.

Boron: Compounds, Production and Application. Nova Science Publishers, Inc., 2011. стр. 93-146.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийглава/разделнаучнаяРецензирование

Harvard

Filatova, EO, Taracheva, EY & A.Pavlychev, A 2011, Hexagonal BN: Chemical and structural effects on K-shells excitation: X-ray polaroid effect. в Boron: Compounds, Production and Application. Nova Science Publishers, Inc., стр. 93-146.

APA

Filatova, E. O., Taracheva, E. Y., & A.Pavlychev, A. (2011). Hexagonal BN: Chemical and structural effects on K-shells excitation: X-ray polaroid effect. в Boron: Compounds, Production and Application (стр. 93-146). Nova Science Publishers, Inc..

Vancouver

Filatova EO, Taracheva EY, A.Pavlychev A. Hexagonal BN: Chemical and structural effects on K-shells excitation: X-ray polaroid effect. в Boron: Compounds, Production and Application. Nova Science Publishers, Inc. 2011. стр. 93-146

Author

Filatova, Elena. O. ; Taracheva, Elena.Yu. ; A.Pavlychev, Andrey. / Hexagonal BN : Chemical and structural effects on K-shells excitation: X-ray polaroid effect. Boron: Compounds, Production and Application. Nova Science Publishers, Inc., 2011. стр. 93-146

BibTeX

@inbook{3ab7ef69095d45488c23bae5ff5a9c27,
title = "Hexagonal BN: Chemical and structural effects on K-shells excitation: X-ray polaroid effect",
abstract = "In the chapter special emphasis is put on interaction of x-ray polarized and nonpolarized radiation with hexagonal BN (h-BN) crystal. h-BN is one of the most anisotropic layer compounds. sp2 hybridization controlling chemical bonding of boron and nitrogen atoms causes strong anisotropy of the electronic and atomic properties along and perpendicular to the atomic layers in the crystal. Near the B and N K shell ionization thresholds the dielectric tensor in h-BN demonstrates sharp variations with photon energy and results in intriguing optical properties of the compound. X-ray absorption near the thresholds is strongly influenced by the short range order parameters of the layers and demonstrates the pronounced {"}molecular{"} properties. The following chemical, structural and optical aspects of h-BN are discussed in more detail: 1) crystal structure and chemical bonding; 2) ground-state properties, band structure and density of states; 3) quasi-atomic properties of x-ray absorption and inner-shell photoemission; 4) x-ray optics of h-BN; 5) orientation and polarization effects in the x-ray reflection, photon scattering and absorption; 6) x-ray Polaroid.",
author = "Filatova, {Elena. O.} and Elena.Yu. Taracheva and Andrey A.Pavlychev",
year = "2011",
month = apr,
day = "1",
language = "English",
isbn = "9781617617607",
pages = "93--146",
booktitle = "Boron",
publisher = "Nova Science Publishers, Inc.",
address = "United States",

}

RIS

TY - CHAP

T1 - Hexagonal BN

T2 - Chemical and structural effects on K-shells excitation: X-ray polaroid effect

AU - Filatova, Elena. O.

AU - Taracheva, Elena.Yu.

AU - A.Pavlychev, Andrey

PY - 2011/4/1

Y1 - 2011/4/1

N2 - In the chapter special emphasis is put on interaction of x-ray polarized and nonpolarized radiation with hexagonal BN (h-BN) crystal. h-BN is one of the most anisotropic layer compounds. sp2 hybridization controlling chemical bonding of boron and nitrogen atoms causes strong anisotropy of the electronic and atomic properties along and perpendicular to the atomic layers in the crystal. Near the B and N K shell ionization thresholds the dielectric tensor in h-BN demonstrates sharp variations with photon energy and results in intriguing optical properties of the compound. X-ray absorption near the thresholds is strongly influenced by the short range order parameters of the layers and demonstrates the pronounced "molecular" properties. The following chemical, structural and optical aspects of h-BN are discussed in more detail: 1) crystal structure and chemical bonding; 2) ground-state properties, band structure and density of states; 3) quasi-atomic properties of x-ray absorption and inner-shell photoemission; 4) x-ray optics of h-BN; 5) orientation and polarization effects in the x-ray reflection, photon scattering and absorption; 6) x-ray Polaroid.

AB - In the chapter special emphasis is put on interaction of x-ray polarized and nonpolarized radiation with hexagonal BN (h-BN) crystal. h-BN is one of the most anisotropic layer compounds. sp2 hybridization controlling chemical bonding of boron and nitrogen atoms causes strong anisotropy of the electronic and atomic properties along and perpendicular to the atomic layers in the crystal. Near the B and N K shell ionization thresholds the dielectric tensor in h-BN demonstrates sharp variations with photon energy and results in intriguing optical properties of the compound. X-ray absorption near the thresholds is strongly influenced by the short range order parameters of the layers and demonstrates the pronounced "molecular" properties. The following chemical, structural and optical aspects of h-BN are discussed in more detail: 1) crystal structure and chemical bonding; 2) ground-state properties, band structure and density of states; 3) quasi-atomic properties of x-ray absorption and inner-shell photoemission; 4) x-ray optics of h-BN; 5) orientation and polarization effects in the x-ray reflection, photon scattering and absorption; 6) x-ray Polaroid.

UR - http://www.scopus.com/inward/record.url?scp=84892068912&partnerID=8YFLogxK

M3 - Chapter

SN - 9781617617607

SP - 93

EP - 146

BT - Boron

PB - Nova Science Publishers, Inc.

ER -

ID: 4491799