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16 results on '"Borek, Stephan"'

1. Minority-Spin Impurity Band in n-Type (In,Fe)As: A Materials Perspective for Ferromagnetic Semiconductors

Author

Kobayashi, Masaki, Anh, Le Duc, Minar, Jan, Khan, Walayat, Borek, Stephan, Hai, Pham Nam, Harada, Yoshihisa, Schmitt, Thorsten, Oshima, Masaharu, Fujimori, Atsushi, Tanaka, Masaaki, and Strocov, Vladimir N.

Subjects
Condensed Matter - Materials Science
Abstract

Fully understanding the properties of n-type ferromagnetic semiconductors (FMSs), complementary to the mainstream p-type ones, is a challenging goal in semiconductor spintronics because ferromagnetism in n-type FMSs is theoretically non-trivial. Soft-x-ray angle-resolved photoemission spectroscopy (SX-ARPES) is a powerful approach to examine the mechanism of carrier-induced ferromagnetism in FMSs. Here our SX-ARPES study on the prototypical n-type FMS (In,Fe)As reveals the entire band structure including the Fe-3d impurity bands (IBs) and the host InAs ones, and provides direct evidence for electron occupation of the InAs-derived conduction band (CB). A minority-spin Fe-3d IB is found to be located just below the conduction-band minimum (CBM). The IB is formed by the hybridization of the unoccupied Fe-3d states with the occupied CBM of InAs in a spin-dependent way, resulting in the large spin polarization of CB. The band structure with the IB is varied with band filling, which cannot be explained by the rigid-band picture, suggesting a unified picture for realization of carrier-induced ferromagnetism in FMS materials., Comment: 24 pages, 7 figures

Published
2020
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2. Vectorial spin-polarization detection in multichannel spin-resolved photoemission spectroscopy using an Ir(001) imaging spin filter

Author

Schaefer, Erik D., Borek, Stephan, Braun, Jürgen, Minár, Ján, Ebert, Hubert, Medjanik, Katerina, Schönhense, Gerd, and Elmers, Hans-Joachim

Subjects
Physics - Instrumentation and Detectors
Abstract

We report on spin- and angular resolved photoemission spectroscopy using a high-resolution imaging spin filter based on a large Ir(001) crystal enhancing the effective figure of merit for spin detection by a factor of over $10^3$ compared to standard single channel detectors. Furthermore, we review the spin filter preparation, and its lifetime. The spin filter efficiency is mapped on a broad range of scattering energies and azimuthal angles. Large spin filter efficiencies are observed for the spin component perpendicular as well as parallel to the scattering plane depending on the azimuthal orientation of the spin filter crystal. A spin rotator capable of manipulating the spin direction prior to detection complements the measurement of three observables, thus allowing for a derivation of all three components of the spin polarization vector in multichannel spin polarimetry. The experimental results nicely agree with spin-polarized low energy electron diffraction calculations based on a fully relativistic multiple scattering method in the framework of spin-polarized density functional theory.

Published
2016
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3. Multiferroic heterostructures for spin filter application - an ab initio study

Author

Borek, Stephan, Braun, Jürgen, Ebert, Hubert, and Minár, Ján

Subjects
Physics - Computational Physics, Condensed Matter - Materials Science
Abstract

Novel imaging spin-filter techniques, which are based on low energy electron diffraction, are currently of high scientific interest. To improve the spin-detection efficiency a variety of new materials have been introduced in recent years. A new class of promising spin-filter materials are represented by multiferroic systems, as both magnetic and electric ordering exist in these materials. We have investigated Fe/BaTiO3(001), which defines a prominent candidate due to its moderate spontaneous polarization, for spin filter applications calculating diffraction patterns for spin polarized electrons incident on the Fe surface. Motivated by the fact that spin polarized low energy electron diffraction is a powerful method for the determination of the properties of surfaces we investigated the influence of switching the BaTiO3 polarization on the exchange and spin orbit scattering as well as on reflectivity and figure of merit. This system obviously offers the possibility to realize a multiferroic spin filter and manipulating the spin-orbit and exchange scattering by an external electric field. The calculations have been done for a large range of kinetic energies and polar angles of the diffracted electrons considering different numbers of Fe monolayers.

Published
2015
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4. Temperature dependent determination of electron heat capacity and electron-phonon factor for Fe$_{0.72}$Cr$_{0.18}$Ni$_{0.1}$

Author

Winter, Jan, Sotrop, Jürgen, Borek, Stephan, Huber, Heinz P., and Minár, Jan

Subjects
Condensed Matter - Materials Science
Abstract

A theoretical approach using ab initio calculations has been applied to study the interaction of an ultra-short laser pulse with the metal alloy Fe$_{0.72}$Cr$_{0.18}$Ni$_{0.1}$ (AISI 304). The electronic structure is simulated by taking into account the chemical and magnetic disorder of the alloy by the coherent potential approximation implemented in a fully relativistic Korringa-Kohn-Rostoker-formalism in the framework of spin density functional theory. Utilizing these predictions we determined the electron heat capacity and the electron-phonon coupling factor of Fe$_{0.72}$Cr$_{0.18}$Ni$_{0.1}$ in dependence on the electron temperature for two-temperature model applications. Compared with pure Fe a maximum deviation of 5~\% for the electron heat capacity and 25~\% for the electron-phonon coupling factor is found.

Published
2015
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5. Minority-spin impurity band in n -type (In,Fe)As: A materials perspective for ferromagnetic semiconductors

Author

Kobayashi, Masaki, primary, Anh, Le Duc, additional, Minár, Jan, additional, Khan, Walayat, additional, Borek, Stephan, additional, Hai, Pham Nam, additional, Harada, Yoshihisa, additional, Schmitt, Thorsten, additional, Oshima, Masaharu, additional, Fujimori, Atsushi, additional, Tanaka, Masaaki, additional, and Strocov, Vladimir N., additional

Published
2021
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6. Applicability of carbon capture and storage in aluminum smelters

Author

Borek, Stephan and Save, Sanjiv

Subjects
Carbon sequestration -- Methods, Carbon sequestration -- Research, Aluminum industry -- Research, Aluminum industry -- Environmental aspects, Aluminum industry -- Technology application, Technology application, Business, Metals, metalworking and machinery industries
Published
2010

13. Ab initio calculation of spin-polarized low-energy electron diffraction pattern for the systems Fe(001) and Fe(001)- p(1×1)O.

Author

Borek, Stephan, Braun, Jüurgen, Minár, Ján, and Ebert, Hubert

Subjects
*SPIN polarization, *ELECTRON diffraction, *AB initio quantum chemistry methods, *ELECTRON scattering, *LOW energy electron diffraction, *DENSITY functional theory
Abstract

The construction of a multichannel vector spin polarimeter requires the development of a detector type, which works as a spin polarizing mirror with high reflectivity and asymmetry properties to guarantee for a high figure of merit. Technical realizations are found by spin-polarized electron scattering from a surface at low energies. A very promising candidate for such a detector suitable material consists of an oxygen passivated iron surface, as for example a Fe(001)-p(1×1)O surface. We investigate in detail the electronic structure of this adsorbate system and calculate the corresponding spin-polarized low-energy electron scattering. Our theoretical study is based on the fully relativistic SPRKKR method in the framework of density functional theory. Furthermore, we use the local spin-density approximation in combination with dynamical mean field theory to determine the electronic structure of Fe(001)-p(1×1)O and demonstrate that a significant impact of correlation effects occurs in the calculated figure of merit. [ABSTRACT FROM AUTHOR]

Published
2015
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15. ChemInform Abstract: Correlation Between the Electronic Structure, Effective Mass and Thermoelectric Properties of Rare Earth Tellurides Ba2MYTe5 (M: Ga, In).

Author

Khan, Wilayat, Borek, Stephan, and Minar, Jan

Subjects
*ATOMIC structure, *THERMOELECTRIC effects, *RARE Earth hypothesis, *TELLURIDES, *ORBITAL hybridization
Abstract

The electronic structure, electronic charge density, and band gaps of Ba2MYTe5 (M: Ga, In) single crystals are simulated using the full potential linearized augmented plane wave package WIEN2k. [ABSTRACT FROM AUTHOR]

Published
2015
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16. Temperature-dependent determination of electron heat capacity and electron-phonon coupling factor for Fe0.72Cr0.18Ni0.1.

Author

Winter, Jan, Sotrop, Jürgen, Borek, Stephan, Huber, Heinz P., and Minár, Jan

Subjects
*ELECTRON-phonon interactions, *HEAT capacity, *IRON-nickel alloys
Abstract

A theoretical approach using ab initio calculations was applied to study the interaction of an ultrashort laser pulse with the metal alloy Fe0.72Cr0.18Ni0.1 (AISI 304). The electronic structure was simulated by taking into account the chemical and magnetic disorder of the alloy by the coherent potential approximation implemented in a fully relativistic Korringa-Kohn-Rostoker formalism in the framework of spin density functional theory. A self-consistent calculation of the electronic structure using the Matsubara technique in the paramagnetic state of Fe0.72Cr0.18Ni0.1 for finite temperatures was applied. Utilizing these predictions we determined the electron heat capacity and the electron-phonon coupling factor of Fe0.72Cr0.18Ni0.1 in dependence on the electron temperature for two-temperature model applications. Compared with pure Fe a maximum deviation of 5% for the electron heat capacity and 25% for the electron-phonon coupling factor was found. [ABSTRACT FROM AUTHOR]

Published
2016
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