A. P. Shpak scite author profile

The electronic structure and x-ray magnetic circular dichroism (XMCD) spectra of the Heusler alloy Co2MnGe were investigated theoretically from first principles, using the fully relativistic Dirac linear muffin-tin orbital band structure method. Densities of valence states, orbital and spin magnetic moments, as well as polarization of the electronic states at the Fermi level are analyzed and discussed. The origin of the XMCD spectra in the Co2MnGe compound is examined. The calculated results are compared with available experimental data.

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Electronic structure, optical and X‐ray emission spectra in FeS₂

Antonov

Germash

Shpak

et al. 2009

Physica Status Solidi (b)

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The electronic structure, optical spectra, X‐ray emission (XE) and X‐ray absorption (XA) spectra of FeS2 were investigated theoretically from first principles, using the fully relativistic Dirac LMTO band structure method in local density approximation (LDA). Theory produces correct semiconductor ground state in FeS2 with the energy gap of Eg = 0.9 eV in good agreement with the experimental data. Densities of valence states are analyzed and discussed. The origin of the optical, XA and XE spectra in the FeS2 compound is examined. The calculated results are compared with available experimental data. (© 2009 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

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Calculation of the magneto-optical properties of ferromagnetic metals using the spin-polarized relativistic LMTO method

Antonov

Perlov

Shpak

et al. 1995

Journal of Magnetism and Magnetic Materials

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Influence of Polarizing Interaction on Spectroscopy of Excitons in Quasi-Zero-Dimensional Systems

Shpak

Pokutnyi²

2005

Usp. Fiz. Met.

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Nanostructured Al86Gd6Ni6Co2 bulk alloy produced by twist extrusion of amorphous melt-spun ribbons

Shpak

Varyukhin

Tkatch

et al. 2006

Materials Science and Engineering: A

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Absorption and Scattering of Light on Electron and Positron States in Quasi-Zero-Dimensional Nanosystems

et al. 2008

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Дан обзор результатов теоретических и экспериментальных исследований по взаимодействию электромагнитного поля с одночастичными электрон-ными и позитронными квантоворазмерными состояниями, возникающими в квазинульмерных металлических и полупроводниковых наносистемах. Показано, что силы осцилляторов переходов, а также дипольные моменты переходов для одночастичных электронных и позитронных состояний в квазинульмерных наносистемах принимают гигантские значения, сущест-венно превосходящие типичные значения соответствующих величин для объемных материалов. В рамках дипольного приближения установлено, что гигантские значения сечений поглощения света в изучаемых квази-нульмерных наносистемах дают возможность использовать такие наноси-стемы в качестве новых сильно поглощающих материалов.Дано огляд результатів теоретичних і експериментальних досліджень з взаємодії електромагнетного поля з одночастинковими електронними й позитронними квантоворозмірними станами, які виникають у квазинуль-вимірних металевих і напівпровідникових наносистемах. Показано, що сили осциляторів переходів, а також дипольні моменти переходів для од-ночастинкових електронних і позитронних станів у квазинульвимірних наносистемах набувають гігантських значень, що суттєво перевищують типові значення відповідних величин для об'ємних матеріялів. У рамках дипольного наближення встановлено, що гігантські значення перерізів вбирання світла в таких квазинульвимірних наносистемах дають можли-вість використовувати наносистеми в якости нових сильно вбираючих ма-теріялів.We analyzed the results of theoretical and experimental research on the interaction of an electromagnetic field with electron and positron states arising in quasi-zero-dimensional metal and semiconductor nanosystems. As shown, the oscillator strengths and dipole moments for the transitions involving oneparticle electron and positron in quasi-zero-dimensional nanosystems attain Успехи физ. мет. / Usp. Fiz. Met. 2008, т. 9, сс. 289-304 Îòòèñêè äîñòóïíû íåïîñðåäñòâåííî îò èçäàòåëÿ Ôîòîêîïèðîâàíèå ðàçðåøåíî òîëüêî â ñîîòâåòñòâèè ñ ëèöåíçèåé 2008 ÈÌÔ (Èíñòèòóò ìåòàëëîôèçèêè èì. Ã. Â. Êóðäþìîâà ÍÀÍ Óêðàèíû) Íàïå÷àòàíî â Óêðàèíå.

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Inherent tensile strength of molybdenum nanocrystals

Shpak

Котречко

Mazilova

et al. 2009

Science and Technology of Advanced Materials

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The strength of Mo nanorods was measured under uniaxial tension. Tensile tests of 110 -oriented single-crystalline molybdenum rod-shaped specimens with diameters from 25 to 90 nm at the apex were conducted inside a field-ion microscope (FIM). The nanocrystals were free from dislocations, planar defects and microcracks, and exhibited the plastic mode of failure under uniaxial tension with the formation of a chisel-edge tip by multiple gliding in the (112) [111] and (112)[111] deformation systems. The experimental values of tensile strength vary between 6.3 and 19.8 GPa and show a decrease with increasing nanorod diameter. A molecular dynamic simulation of Mo nanorod tension also suggests that the strength decreases from 28.8 to 21.0 GPa when the rod diameter increases from 3.1 to 15.7 nm. The maximum values of experimental strength are thought to correspond to the inherent strength of Mo nanocrystals under uniaxial tension (19.8 GPa, or 7.5% of Young's modulus).

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A. P. Shpak

X-ray magnetic circular dichroism inGdN: First-principles calculations

Electronic structure and x-ray magnetic circular dichroism in the Heusler alloy Co2MnGe

Electronic structure, optical and X‐ray emission spectra in FeS₂

Calculation of the magneto-optical properties of ferromagnetic metals using the spin-polarized relativistic LMTO method

Influence of Polarizing Interaction on Spectroscopy of Excitons in Quasi-Zero-Dimensional Systems

Nanostructured Al86Gd6Ni6Co2 bulk alloy produced by twist extrusion of amorphous melt-spun ribbons

Absorption and Scattering of Light on Electron and Positron States in Quasi-Zero-Dimensional Nanosystems

Inherent tensile strength of molybdenum nanocrystals

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A. P. Shpak

X-ray magnetic circular dichroism inGdN: First-principles calculations

Electronic structure and x-ray magnetic circular dichroism in the Heusler alloy Co2MnGe

Electronic structure, optical and X‐ray emission spectra in FeS2

Calculation of the magneto-optical properties of ferromagnetic metals using the spin-polarized relativistic LMTO method

Influence of Polarizing Interaction on Spectroscopy of Excitons in Quasi-Zero-Dimensional Systems

Nanostructured Al86Gd6Ni6Co2 bulk alloy produced by twist extrusion of amorphous melt-spun ribbons

Absorption and Scattering of Light on Electron and Positron States in Quasi-Zero-Dimensional Nanosystems

Inherent tensile strength of molybdenum nanocrystals

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Product

Resources

About

Electronic structure, optical and X‐ray emission spectra in FeS₂