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1. Fast optical absorption spectra calculations for periodic solid state systems

Author

Henneke, F., Lin, L., Vorwerk, C., Draxl, C., Klein, R., and Yang, C.

Subjects
Physics - Computational Physics, Computer Science - Computational Engineering, Finance, and Science, 65F15, 65Z05
Abstract

We present a method to construct an efficient approximation to the bare exchange and screened direct interaction kernels of the Bethe-Salpeter Hamiltonian for periodic solid state systems via the interpolative separable density fitting technique. We show that the cost of constructing the approximate Bethe-Salpeter Hamiltonian scales nearly optimally as $\mathcal{O}(N_k)$ with respect to the number of samples in the Brillouin zone $N_k$. In addition, we show that the cost for applying the Bethe-Salpeter Hamiltonian to a vector scales as $\mathcal{O}(N_k \log N_k)$. Therefore the optical absorption spectrum, as well as selected excitation energies can be efficiently computed via iterative methods such as the Lanczos method. This is a significant reduction from the $\mathcal{O}(N_k^2)$ and $\mathcal{O}(N_k^3)$ scaling associated with a brute force approach for constructing the Hamiltonian and diagonalizing the Hamiltonian respectively. We demonstrate the efficiency and accuracy of this approach with both one-dimensional model problems and three-dimensional real materials (graphene and diamond). For the diamond system with $N_k=2197$, it takes $6$ hours to assemble the Bethe-Salpeter Hamiltonian and $4$ hours to fully diagonalize the Hamiltonian using $169$ cores when the brute force approach is used. The new method takes less than $3$ minutes to set up the Hamiltonian and $24$ minutes to compute the absorption spectrum on a single core.

Published
2019
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2. Ultrafast Hot Phonon Dynamics in MgB$_2$ Driven by Anisotropic Electron-Phonon Coupling

Author

Novko, D., Caruso, F., Draxl, C., and Cappelluti, E.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Superconductivity
Abstract

The zone-center $E_{2g}$ modes play a crucial role in MgB$_2$, controlling the scattering mechanisms in the normal state as well the superconducting pairing. Here, we demonstrate via first-principles quantum-field theory calculations that, due to the anisotropic electron-phonon interaction, a $hot$-$phonon$ regime where the $E_{2g}$ phonons can achieve significantly larger effective populations than other modes, is triggered in MgB$_2$ by the interaction with an ultra-short laser pulse. Spectral signatures of this scenario in ultrafast pump-probe Raman spectroscopy are discussed in detail, revealing also a fundamental role of nonadiabatic processes in the optical features of the $E_{2g}$ mode., Comment: Article as accepted for publication in Physical Review Letters; 6 pages, 3 figures

Published
2019
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3. Band gap renormalization, carrier mobilities, and the electron-phonon self-energy in crystalline naphthalene

Author

Brown-Altvater, F, Antonius, G, Rangel, T, Giantomassi, M, Draxl, C, Gonze, X, Louie, SG, and Neaton, JB

Abstract

Organic molecular crystals are expected to feature appreciable electron-phonon interactions that influence their electronic properties at zero and finite temperature. In this work, we report first-principles calculations and an analysis of the electron-phonon self-energy in naphthalene crystals. We compute the zero-point renormalization and temperature dependence of the fundamental band gap, and the resulting scattering lifetimes of electronic states near the valence- and conduction-band edges employing density functional theory. Further, our calculated phonon renormalization of the GW-corrected quasiparticle band structure predicts a fundamental band gap of 5 eV for naphthalene at room temperature, in good agreement with experiments. From our calculated phonon-induced electron lifetimes, we obtain the temperature-dependent mobilities of electrons and holes in good agreement with experimental measurements at room temperature. Finally, we show that an approximate energy self-consistent computational scheme for the electron-phonon self-energy leads to the prediction of strong satellite bands in the electronic band structure. We find that a single calculation of the self-energy can reproduce the self-consistent results of the band gap renormalization and electrical mobilities for naphthalene, provided that the on-the-mass-shell approximation is used, i.e., if the self-energy is evaluated at the bare eigenvalues.

Published
2020

5. Density Functional Theory and Generalized Tight-Binding combined method for Hubbard fermion-phonon coupling study in strongly correlated LSCO-system

Author

Spitaler, J., Shneyder, E. I., Kokorina, E. E., Nekrasov, I. A., Gavrichkov, V. A., Ambrosch-Draxl, C., and Ovchinnikov, S. G.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We present ab initio results for the electron-phonon interaction of the \Gamma-point phonons in the tetragonal high-temperature phase of La2CuO4. Eigenfrequencies and eigenvectors for the symmetry-allowed phonon modes are calculated with the full-potential augmented plane wave+local orbitals method using the frozen phonon approach. It is found that the \Gamma-point phonons with the strongest electron-phonon interaction are the A{2u} modes with 236 cm^{-1}, 131 cm^{-1} and 476 cm^{-1}. To take effect of strong electron on-site interaction into account we use generalized tight-binding method that results in the interaction of phonons with Hubbard fermions forming quasiparticle's band structure. Finally, the matrix elements of Hubbard fermion-phonon interaction and their reduction due to strong electron correlation are obtained., Comment: 7 pages

Published
2013

6. Spin-orbit fields in ferromagnetic metal/semiconductor junctions

Author

Gmitra, M., Matos-Abiague, A., Ambrosch-Draxl, C., and Fabian, J.

Subjects
Condensed Matter - Materials Science
Abstract

The methodology used to obtain the values of the spin-orbit couplings from the spin expectation values from perturbation theory was incorrect. As a result Figs. 2 and 3 are incorrect., Comment: This paper has been withdrawn

Published
2009

7. Band-structure topologies of graphene: spin-orbit coupling effects from first principles

Author

Gmitra, M., Konschuh, S., Ertler, C., Ambrosch-Draxl, C., and Fabian, J.

Subjects
Condensed Matter - Materials Science
Abstract

The electronic band structure of graphene in the presence of spin-orbit coupling and transverse electric field is investigated from first principles using the linearized augmented plane-wave method. The spin-orbit coupling opens a gap at the $K(K')$-point of the magnitude of 24 $\mu$eV (0.28 K). This intrinsic splitting comes 96% from the usually neglected $d$ and higher orbitals. The electric field induces an additional (extrinsic) Bychkov-Rashba-type splitting of 10 $\mu$eV (0.11 K) per V/nm, coming from the $\sigma$-$\pi$ mixing. A 'mini-ripple' configuration with every other atom is shifted out of the sheet by less than 1% differs little from the intrinsic case., Comment: 4 pages, 4 figures

Published
2009
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8. Inhomogeneity effects in oxygen doped HgBa$_2$CuO$_{4}$

Author

Ambrosch-Draxl, C. and Sherman, E. Ya.

Subjects
Condensed Matter - Superconductivity
Abstract

We theoretically investigate inhomogeneity effects on the charges, electric field gradients and site-projected densities of states in HgBa$_2$CuO$_{4+\delta}$. We find pronounced differences in the doping-induced number of holes at different atomic sites. The contributions of these sites to the density of states in the vicinity of the Fermi level are peaked at the same energy, but vary in magnitude by up to 70 percent and have different energy dependence. Due to this energy dependence the role of the intrinsic inhomogeneities for superconductivity strongly depends on the energy and character of the quasiparticle mediating the Cooper pairing. Our results can explain the origin of doping-induced effects observed either by local or macroscopic experimental probes., Comment: 5 pages, 2 figures

Published
2006
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9. First-principles approach to Non-Collinear Magnetism: towards Spin-dynamics

Author

Sharma, S., Dewhurst, J. K., Ambrosch-Draxl, C., Kurth, S., Helbig, N., Pittalis, S., Gross, E. K. U., Shallcross, S., and Nordstroem, L.

Subjects
Condensed Matter - Materials Science
Abstract

A description of non-collinear magnetism in the framework of spin-density functional theory is presented for the exact exchange energy functional which depends explicitly on two-component spinor orbitals. The equations for the effective Kohn-Sham scalar potential and magnetic field are derived within the optimized effective potential (OEP) framework. With the example of a magnetically frustrated Cr monolayer it is shown that the resulting magnetization density exhibits much more non-collinear structure than standard calculations. Furthermore, a time-dependent generalization of the non-collinear OEP method is well suited for an ab-initio description of spin dynamics. We also show that the magnetic moments of solids Fe, Co and Ni are well reproduced., Comment: 4 pages 2 fig accepted in Phys. Rev. Lett. (2007)

Published
2005

10. All-electron Exact Exchange Treatment of Semiconductors: Effect of Core-valence Interaction on Band-gap and $d$-band Position

Author

Sharma, S., Dewhurst, J. K., and Ambrosch-Draxl, C.

Subjects
Condensed Matter - Materials Science
Abstract

Exact exchange (EXX) Kohn-Sham calculations within an all-electron full-potential method are performed on a range of semiconductors and insulators (Ge, GaAs, CdS, Si, ZnS, C, BN, Ne, Ar, Kr and Xe). We find that the band-gaps are not as close to experiment as those obtained from previous pseudopotential EXX calculations. Full-potential band-gaps are also not significantly better for $sp$ semiconductors than for insulators, as had been found for pseudopotentials. The locations of $d$-band states, determined using the full-potential EXX method, are in excellent agreement with experiment, irrespective of whether these states are core, semi-core or valence. We conclude that the inclusion of the core-valence interaction is necessary for accurate determination of EXX Kohn-Sham band structures, indicating a possible deficiency in pseudopotential calculations., Comment: 4 pages 2 figs

Published
2005
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11. Magnetism in Exact Exchange Density Functional Theory

Author

Sharma, S., Dewhurst, J. K., Persson, C., Shallcross, S., Nordstroem, L., and Ambrosch-Draxl, C.

Subjects
Condensed Matter - Materials Science
Abstract

The magnetic properties of the intermetallic compound FeAl are investigated using exact exchange density functional theory. This is implemented within a state of the art all-electron full potential method. We find that FeAl is magnetic with a moment of 0.70 $\mu_B$, close to the LSDA result of 0.69 $\mu_B$. A comparison with the non-magnetic density of states with experimental negative binding energy result shows a much better agreement than any previous calculations. We attribute this to the fine details of the exchange field, in particular its asymmetry, which is captured very well with the orbital dependent exchange potential., Comment: 4 pages 4 figs

Published
2005

12. Pressure-induced hole doping of the Hg-based cuprate superconductors

Author

Ambrosch-Draxl, C., Sherman, E. Ya., Auer, H., and Thonhauser, T.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

We investigate the electronic structure and the hole content in the copper-oxygen planes of Hg based high Tc cuprates for one to four CuO2 layers and hydrostatic pressures up to 15 GPa. We find that with the pressure-induced additional number of holes of the order of 0.05e the density of states at the Fermi level changes approximately by a factor of 2. At the same time the saddle point is moved to the Fermi level accompanied by an enhanced k_z dispersion. This finding explains the pressure behavior of Tc and leads to the conclusion that the applicability of the van Hove scenario is restricted. By comparison with experiment, we estimate the coupling constant to be of the order of 1, ruling out the weak coupling limit., Comment: 4 pages, 4 figures

Published
2004
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13. Optical properties, electron-phonon coupling, and Raman scattering of vanadium ladder compounds

Author

Spitaler, J., Sherman, E. Ya., Evertz, H. G., and Ambrosch-Draxl, C.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

The electronic structure of two V-based ladder compounds, the quarter-filled NaV$_2$O$_5$ in the symmetric phase and the iso-structural half-filled CaV$_2$O$_5$ is investigated by ab initio calculations. Based on the bandstructure we determine the dielectric tensor $\epsilon(\omega)$ of these systems in a wide energy range. The frequencies and eigenvectors of the fully symmetric A$_{g}$ phonon modes and the corresponding electron-phonon and spin-phonon coupling parameters are also calculated from first-principles. We determine the Raman scattering intensities of the A$_g$ phonon modes as a function of polarization and frequency of the exciting light. All results, i.e. shape and magnitude of the dielectric function, phonon frequencies and Raman intensities show very good agreement with available experimental data., Comment: 11 pages, 10 figures

Published
2004
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14. Linear optical properties of solids within the full-potential linearized augmented planewave method

Author

Ambrosch-Draxl, C. and Sofo, J. O.

Subjects
Condensed Matter - Other Condensed Matter, Condensed Matter - Materials Science
Abstract

We present a scheme for the calculation of linear optical properties by the all-electron full-potential linearized augmented planewave (LAPW) method. A summary of the theoretical background for the derivation of the dielectric tensor within the random-phase approximation is provided together with symmetry considerations and the relation between the optical constants. The momentum matrix elements are evaluated in detail for the LAPW basis, and the interband as well as the intraband contributions to the dielectric tensor are given. Results are presented for the metals aluminum and gold, where we crosscheck our results by sumrules. We find that the optical spectra can be extremely sensitive to the Brillouin zone sampling. For gold, the influence of relativistic effects on the dielectic function is investigated. It is shown that the scalar-relativistic effect is much more important than spin-orbit coupling. The interpretability of the Kohn-Sham eigenstates in terms of excited states is discussed.

Published
2004

15. Optical properties and Raman scattering of vanadium ladder compounds

Author

Spitaler, J., Sherman, E. Ya., Ambrosch-Draxl, C., and Evertz, H. - G.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

We investigate electronic and optical properties of the V-based ladder compounds NaV2O5, the iso-structural CaV2O5, as well as MgV2O5, which differs from NaV2O5 and CaV2O5 in the c axis stacking. We calculate ab initio the A_g phonon modes in these compounds as a basis for the investigation of the electron-phonon and spin-phonon coupling. The phonon modes together with the dielectric tensors as a function of the corresponding ion displacements are the starting point for the calculation of the A_g Raman scattering., Comment: 4 pages, 5 figures, .bbl file with references included. Accepted for publication in Physica Scripta

Published
2004
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16. Charge ordering in quarter-filled ladder systems coupled to the lattice

Author

Aichhorn, M., Hohenadler, M., Sherman, E. Ya., Spitaler, J., Ambrosch-Draxl, C., and Evertz, H. G.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We investigate charge ordering in the presence of electron-phonon coupling for quarter-filled ladder systems by using Exact Diagonalization. As an example we consider NaV2O5 using model parameters obtained from first-principles band-structure calculations. The relevant Holstein coupling to the lattice considerably reduces the critical value of the nearest-neighbor Coulomb repulsion at which formation of the zig-zag charge-ordered state occurs, which is then accompanied by a static lattice distortion. Energy and length of a kink-like excitation on the background of the distorted lattice are calculated. Spin and charge spectra on ladders with and without static distortion are obtained, and the charge gap and the effective spin-spin exchange parameter J are extracted. J agrees well with experimental results. Analysis of the dynamical Holstein model, restricted to a small number of phonons, shows that low frequency lattice vibrations increase the charge order, accompanied by dynamically produced zig-zag lattice distortions., Comment: 11 pages, 17 figures, revised version as to appear in Phys. Rev. B

Published
2003
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17. Lithiation of InSb and Cu$_2$Sb : A Theoretical Investigation

Author

Sharma, S., Dewhurst, J. K., and Ambrosch-Draxl, C.

Subjects
Condensed Matter - Materials Science
Abstract

In this work the mechanism of Li insertion/intercalation in the anode materials InSb and Cu$_2$Sb is investigated by means of the first principles total energy calculations. The total charge densities for the lithiated products of the two compounds are presented. Based on these results the change in the bonding character on lithiation is discussed. Further, the isomer shift for InSb and Cu$_2$Sb and there various lithiated products is reported. The average insertion/intercalation voltage and volume expansion for transitions from InSb to Li$_2$InSb and Cu$_2$Sb to Li$_2$CuSb are calculated and found to be in good agreement with the experimental values. These findings help to resolve the controversy regarding the lithiation mechanism in InSb., Comment: 5 pages 3 figures

Published
2003
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18. Structure optimization effects on the electronic properties of Bi$_2$Sr$_2$CaCu$_2$O$_8$

Author

Bellini, V., Manghi, F., Thonhauser, T., and Ambrosch-Draxl, C.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Superconductivity
Abstract

We present detailed first-principles calculations for the normal state electronic properties of the high T$_C$ superconductor Bi$_2$Sr$_2$CaCu$_2$O$_8$, by means of the linearized augmented plane wave (LAPW) method within the framework of density functional theory (DFT). As a first step, the body centered tetragonal (BCT) cell has been adopted, and optimized regarding its volume, $c/a$ ratio and internal atomic positions by total energy and force minimizations. The full optimization of the BCT cell leads to small but visible changes in the topology of the Fermi surface, rounding the shape of CuO$_2$ barrels, and causing both the BiO bands, responsible for the pockets near the \textit{\=M} 2D symmetry point, to dip below the Fermi level. We have then studied the influence of the distortions in the BiO plane observed in nature by means of a $\sqrt{2}\times\sqrt{2}$ orthorhombic cell (AD-ORTH) with $Bbmb$ space group. Contrary to what has been observed for the Bi-2201 compound, we find that for Bi-2212 the distortion does not sensibly shift the BiO bands which retain their metallic character. As a severe test for the considered structures we present Raman-active phonon frequencies ($q = 0$) and eigenvectors calculated within the frozen-phonon approximation. Focussing on the totally symmetric A$_{g}$ modes, we observe that for a reliable attribution of the peaks observed in Raman experiments, both $c$- and a-axis vibrations must be taken into account, the latter being activated by the in-plane orthorhombic distortion., Comment: 22 pages, 4 figures

Published
2003
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19. Optical Response of Solid CO$_2$ as a Tool for the Determination of the High Pressure Phase

Author

Sharma, S., Dewhurst, J. K., and Ambrosch-Draxl, C.

Subjects
Condensed Matter - Materials Science
Abstract

We report first-principles calculations of the frequency dependent linear and second-order optical properties of the two probable extended-solid phases of CO$_2$--V, i.e. $I\bar42d$ and $P2_12_12_1$. Compared to the parent $Cmca$ phase the linear optical susceptibility of both phases is much smaller. We find that $I\bar42d$ and $P2_12_12_1$ differ substantially in their linear optical response in the higher energy regime. The nonlinear optical responses of the two possible crystal structures differ by roughly a factor of five. Since the differences in the nonlinear optical spectra are pronounced in the low energy regime, i.e. below the band gap of diamond, measurements with the sample inside the diamond anvil cell are feasible. We therefore suggest optical experiments in comparison with our calculated data as a tool for the unambiguous identification of the high pressure phase of CO$_2$., Comment: 4 pages 2 figs

Published
2003
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20. Linear and Second-order Optical Response from First Principles

Author

Sharma, S. and Ambrosch-Draxl, C.

Subjects
Condensed Matter - Materials Science
Abstract

We present a full formalism for the calculation of the linear and second-order optical response for semiconductors and insulators. The expressions for the optical susceptibilities are derived within perturbation theory. As a starting point a brief background of the single and many particle Hamiltonians and operators is provided. As an example we report calculations of the linear and nonlinear optical properties of the mono-layer InP/GaP (110) superlattice. The features in the linear optical spectra are identified to be coming from various band combinations. The main features in the second-order optical spectra are analyzed in terms of resonances of peaks in linear optical spectra. With the help of the strain corrected effective-medium-model the interface selectivity of the second-order optical properties is highlighted., Comment: 10 pages 4 figures, conference & physica scripta

Published
2003
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21. Linear and Second-order Optical Response of the III-V Mono-layer Superlattices

Author

Sharma, S., Dewhurst, J. K., and Ambrosch-Draxl, C.

Subjects
Condensed Matter - Materials Science
Abstract

We report the first fully self-consistent calculations of the nonlinear optical properties of superlattices. The materials investigated are mono-layer superlattices with GaP grown on the the top of InP, AlP and GaAs (110) substrates. We use the full-potential linearized augmented plane wave method within the generalized gradient approximation to obtain the frequency dependent dielectric tensor and the second-harmonic-generation susceptibility. The effect of lattice relaxations on the linear optical properties are studied. Our calculations show that the major anisotropy in the optical properties is the result of strain in GaP. This anisotropy is maximum for the superlattice with maximum lattice mismatch between the constituent materials. In order to differentiate the superlattice features from the bulk-like transitions an improvement over the existing effective medium model is proposed. The superlattice features are found to be more pronounced for the second-order than the linear optical response indicating the need for full supercell calculations in determining the correct second-order response., Comment: 9 pages, 4 figures, submitted to Phy. Rev. B

Published
2002
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22. First-principles Calculation of Superconductivity in Hole-doped LiBC: $T_c=65$ K

Author

Dewhurst, J. K., Sharma, S., Ambrosch-Draxl, C., and Johansson, B.

Subjects
Condensed Matter - Superconductivity
Abstract

The lattice dynamical properties of Li$_x$BC are calculated for several values of $x$ using density functional perturbation theory. We find that the electron-phonon coupling parameter $\lambda$ increases monotonically with decreasing $x$ to a maximum value of 1.4 for $x=0.125$ owing to the increasing radius of multiply-nested Fermi surface cylinders. The B-C bond-stretching phonon modes have frequencies which are 28% higher than the equivalent modes in MgB$_2$. This combination results in a $T_c$ of about 65 K for $x=0.5$., Comment: 6 pages, 5 figures

Published
2002
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23. Doping induced charge redistribution in the high temperature superconductor HgBa2CuO4

Author

Süle, P., Ambrosch-Draxl, C., Auer, H., and Sherman, E. Y.

Subjects
Condensed Matter - Superconductivity
Abstract

To understand the link between doping and electronic properties in high temperature superconductors, we report first-principles calculations on the oxygen doping effect for the single layer cuprate HgBa$_2$CuO$_{4+\delta}$. The doping effect is studied both by supercell and single cell virtual crystal type approaches. We find ionic behavior of the dopant atom up to an optimal doping concentration of $\delta=0.22$. The excess oxygen attracts electrons from the CuO$_2$ plane leading to an increase of the hole concentration in this building block. The maximum amount of holes is reached when the oxygen $p$-shell is nearly completely filled. As a consequence the density of states at the Fermi level exhibits a pronounced maximum at the optimal oxygen content. The calculated hole content as a function of doping is in accordance with experimental findings., Comment: 4 pages, 4 figures, comments to sule@mfa.kfki.hu

Published
2001

24. Charge kinks as Raman scatterers in quarter-filled ladders

Author

Sherman, E. Ya., Ambrosch-Draxl, C., Lemmens, P., Guentherodt, G., and van Loosdrecht, P. H. M.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Charge kinks are considered as fundamental excitations in quarter-filled charge-ordered ladders. The strength of the coupling of the kinks to the three-dimensional lattice depends on their energy. The integrated intensity of Raman scattering by kink-antikink pairs is proportional to $\phi ^{5}$ or $\phi ^{4},$ where $\phi $ is the order parameter. The exponent is determined by the system parameters and by the strength of the electron-phonon coupling., Comment: To be published in Phys. Rev.B (june 2001)

Published
2001
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25. Electronic structure and ferroelectricity in SrBi2Ta2O9

Author

Stachiotti, M. G., Rodriguez, C. O., Ambrosch-Draxl, C., and Christensen, N. E.

Subjects
Condensed Matter - Materials Science
Abstract

The electronic structure of SrBi2Ta2O9 is investigated from first-principles, within the local density approximation, using the full-potential linearized augmented plane wave (LAPW) method. The results show that, besides the large Ta(5d)-O(2p) hybridization which is a common feature of the ferroelectric perovskites, there is an important hybridization between bismuth and oxygen states. The underlying static potential for the ferroelectric distortion and the primary source for ferroelectricity is investigated by a lattice-dynamics study using the Frozen Phonon approach., Comment: 17 pages, 7 figures. Phys. Rev. B, in press

Published
2000
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26. Investigation of A1g phonons in YBa2Cu3O7 by means of LAPW atomic-force calculations

Author

Kouba, R. and Ambrosch-Draxl, C.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

We report first-principles frozen-phonon calculations for the determination of the force-free geometry and the dynamical matrix of the five Raman-active A1g modes in YBa2Cu3O7. To establish the shape of the phonon potentials atomic forces are calculated within the LAPW method. Two different schemes - the local density approximation (LDA) and a generalized gradient approximation (GGA) - are employed for the treatment of electronic exchange and correlation effects. We find that in the case of LDA the resulting phonon frequencies show a deviation from experimental values of approximately -10%. Invoking GGA the frequency values are significantly improved and also the eigenvectors are in very good agreement with experimental findings., Comment: 15 pages

Published
1997
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29. Extrapolation to complete basis-set limit in density-functional theory by quantile random-forest models

Author

Speckhard, D., Carbogno, C., Ghiringhelli, L., Lubeck, S., Scheffler, M., and Draxl, C.

Abstract

The numerical precision of density-functional-theory (DFT) calculations depends on a variety of computational parameters, one of the most critical being the basis-set size. The ultimate precision is reached with an infinitely large basis set, i.e., in the limit of a complete basis set (CBS). Our aim in this work is to find a machine-learning model that extrapolates finite basis-size calculations to the CBS limit. We start with a data set of 63 binary solids investigated with two all-electron DFT codes, exciting and FHI-aims, which employ very different types of basis sets. A quantile-random-forest model is used to estimate the total-energy correction with respect to a fully converged calculation as a function of the basis-set size. The random-forest model achieves a symmetric mean absolute percentage error of lower than 25% for both codes and outperforms previous approaches in the literature. Our approach also provides prediction intervals, which quantify the uncertainty of the models' predictions.

Published
2023

30. Roadmap on Electronic Structure Codes in the Exascale Era

Author

Gavini, V., Baroni, S., Blum, V., Bowler, D., Buccheri, A., Chelikowsky, J., Das, S., Dawson, W., Delugas, P., Dogan, M., Draxl, C., Galli, G., Genovese, L., Giannozzi, P., Giantomassi, M., Gonze, X., Govoni, M., Gulans, A., Gygi, F., Herbert, J., Kokott, S., Kühne, T., Liou, K., Miyazaki, T., Motamarri, P., Nakata, A., Pask, J., Plessl, C., Ratcliff, L., Richard, R., Rossi, M., Schade, R., Scheffler, M., Schütt, O., Suryanarayana, P., Torrent, M., Truflandier, L., Windus, T., Xu, Q., Yu, V., and Perez, D.

Abstract

Electronic structure calculations have been instrumental in providing many important insights into a range of physical and chemical properties of various molecular and solid-state systems. Their importance to various fields, including materials science, chemical sciences, computational chemistry and device physics, is underscored by the large fraction of available public supercomputing resources devoted to these calculations. As we enter the exascale era, exciting new opportunities to increase simulation numbers, sizes, and accuracies present themselves. In order to realize these promises, the community of electronic structure software developers will however first have to tackle a number of challenges pertaining to the efficient use of new architectures that will rely heavily on massive parallelism and hardware accelerators. This roadmap provides a broad overview of the state-of-the-art in electronic structure calculations and of the various new directions being pursued by the community. It covers 14 electronic structure codes, presenting their current status, their development priorities over the next five years, and their plans towards tackling the challenges and leveraging the opportunities presented by the advent of exascale computing.

Published
2022

32. Roadmap on Machine learning in electronic structure

Author

Kulik, H J, Hammerschmidt, T, Schmidt, J, Botti, S, Marques, M A L, Boley, M, Scheffler, M, Todorović, M, Rinke, P, Oses, C, Smolyanyuk, A, Curtarolo, S, Tkatchenko, A, Bartók, A P, Manzhos, S, Ihara, M, Carrington, T, Behler, J, Isayev, O, Veit, M, Grisafi, A, Nigam, J, Ceriotti, M, Schütt, K T, Westermayr, J, Gastegger, M, Maurer, R J, Kalita, B, Burke, K, Nagai, R, Akashi, R, Sugino, O, Hermann, J, Noé, F, Pilati, S, Draxl, C, Kuban, Martin, Rigamonti, Santiago, Scheidgen, Markus, Esters, M, Hicks, D, Toher, C, Balachandran, P V, Tamblyn, I, Whitelam, S, Bellinger, C, Ghiringhelli, Luca M., Kulik, H J, Hammerschmidt, T, Schmidt, J, Botti, S, Marques, M A L, Boley, M, Scheffler, M, Todorović, M, Rinke, P, Oses, C, Smolyanyuk, A, Curtarolo, S, Tkatchenko, A, Bartók, A P, Manzhos, S, Ihara, M, Carrington, T, Behler, J, Isayev, O, Veit, M, Grisafi, A, Nigam, J, Ceriotti, M, Schütt, K T, Westermayr, J, Gastegger, M, Maurer, R J, Kalita, B, Burke, K, Nagai, R, Akashi, R, Sugino, O, Hermann, J, Noé, F, Pilati, S, Draxl, C, Kuban, Martin, Rigamonti, Santiago, Scheidgen, Markus, Esters, M, Hicks, D, Toher, C, Balachandran, P V, Tamblyn, I, Whitelam, S, Bellinger, C, and Ghiringhelli, Luca M.

Abstract

In recent years, we have been witnessing a paradigm shift in computational materials science. In fact, traditional methods, mostly developed in the second half of the XXth century, are being complemented, extended, and sometimes even completely replaced by faster, simpler, and often more accurate approaches. The new approaches, that we collectively label by machine learning, have their origins in the fields of informatics and artificial intelligence, but are making rapid inroads in all other branches of science. With this in mind, this Roadmap article, consisting of multiple contributions from experts across the field, discusses the use of machine learning in materials science, and share perspectives on current and future challenges in problems as diverse as the prediction of materials properties, the construction of force-fields, the development of exchange correlation functionals for density-functional theory, the solution of the many-body problem, and more. In spite of the already numerous and exciting success stories, we are just at the beginning of a long path that will reshape materials science for the many challenges of the XXIth century., Peer Reviewed

Published
2022

34. Digital catalysis

Author

Trunschke, A., Draxl, C., Schlögl, R., and Scheffler, M.

Abstract

In der Katalyse und bei der Erforschung anderer Funktionsmaterialien werden große Datenmengen erzeugt. Die interdisziplinäre Nutzung aller dieser Daten unter Anwendung von Methoden der Informatik und künstlichen Intelligenz wird zu neuen Erkenntnissen in den Materialwissenschaften führen. Sie stellt jedoch hohe Anforderungen an die Qualität der Daten. Wir erarbeiten standardisierte Verfahren zur Erzeugung von (Meta-) Daten komplexer, dynamischer Systeme und tragen somit zu einer FAIRen Nutzung von Forschungsdaten als Grundlage für die Entwicklung neuer, zukunftssichernder Technologien bei. Large amounts of data are generated in catalysis and in the research of other functional materials. The interdisciplinary use of all these data using methods of computer science and artificial intelligence will lead to new insights in materials science. However, it places high demands on the quality of the data. We develop standardized procedures for the generation of (meta-) data of complex, dynamic systems, thereby contributing to a FAIR use of research data as a basis for the development of new, future-proof technologies.

Published
2020

36. IEA Wind Task 36 Forecasting –Phase II

Author

Giebel, G., Shaw, W., Frank, H., Draxl, C., Pinson, P., Zack, J., Kariniotakis, G., Möhrlen, C., Bessa, R., Giebel, G., Shaw, W., Frank, H., Draxl, C., Pinson, P., Zack, J., Kariniotakis, G., Möhrlen, C., and Bessa, R.

Abstract

This poster gives an overview of the IEA Wind Task 36 for Wind Power Forecasting. Collaboration in the task is amongst forecasting experts and those interested in the forecasting business. The second phase of the Task runs for three years, 2019-2021. In the first phase an IEA Recommended Practice on the forecast solution selection and evaluation process, an information portal for many forecasting related issues and a review article and position paper regarding the use of probabilistic forecasts were developed. Additionally, dissemination of relevant information in both the forecasters and the end-users community has been paramount with special sessions, workshops and webinars. The Operating Agent is Gregor Giebel of DTU, Co-Operating Agent is Will Shaw of PNNL. Participation is open for all organisations in member states of the IEA Annex on Wind Power, see ieawind.org for the up-to-date list.

Published
2019

37. A FAIRes data concept of material sciences controlled by big data

Author

Scheffler, M. and Draxl, C.

Abstract

Daten sind ein wichtiger Rohstoff des 21. Jahrhunderts. Dies gilt besonders für die Materialwissenschaften. Das Fehlen einer effizienten Infrastruktur zum Datenaustausch hemmt allerdings den Fortschritt des Gebiets. Im Bereich der rechnergestützten Materialwissenschaften wurde in den letzten Jahren mit dem NOMAD CoE (Novel Materials Discovery – Center of Excellence) ein Kulturwandel hin zu einem umfassenden Data Sharing realisiert und der Weg für Big-Data-Analysen geebnet. Dies führt zu neuen Erkenntnissen bis hin zur Entdeckung neuartiger Materialien für technologisch wichtige Anwendungen. Data are an important raw material of the 21st century. This applies in particular to materials science. However, the lack of an efficient data exchange infrastructure is a major obstacle to this area's progress. In the field of computer-aided materials science, the NOMAD CoE (Novel Materials Discovery - Center of Excellence) has brought about a cultural change towards comprehensive data sharing and paved the way for big data analyses. This leads to new insights and even the discovery of new materials for technologically important applications.

Published
2018

38. Step-flow growth in homoepitaxy of β-Ga2O3 (100)—The influence of the miscut direction and faceting

Author

Schewski, R., primary, Lion, K., additional, Fiedler, A., additional, Wouters, C., additional, Popp, A., additional, Levchenko, S. V., additional, Schulz, T., additional, Schmidbauer, M., additional, Bin Anooz, S., additional, Grüneberg, R., additional, Galazka, Z., additional, Wagner, G., additional, Irmscher, K., additional, Scheffler, M., additional, Draxl, C., additional, and Albrecht, M., additional

Published
2018
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39. Step-flow growth in homoepitaxy of β-Ga2O3 (100)—The influence of the miscut direction and faceting.

Author

Schewski, R., Lion, K., Fiedler, A., Wouters, C., Popp, A., Levchenko, S. V., Schulz, T., Schmidbauer, M., Bin Anooz, S., Grüneberg, R., Galazka, Z., Wagner, G., Irmscher, K., Scheffler, M., Draxl, C., and Albrecht, M.

Subjects
HOMOEPITAXY, GALLIUM, METAL organic chemical vapor deposition, ANNEALING of metals, TRANSMISSION electron microscopy
Abstract

We present a systematic study on the influence of the miscut orientation on structural and electronic properties in the homoepitaxial growth on off-oriented β-Ga2O3 (100) substrates by metalorganic chemical vapour phase epitaxy. Layers grown on (100) substrates with 6° miscut toward the [00 1 ¯ ] direction show high electron mobilities of about 90 cm2 V−1 s−1 at electron concentrations in the range of 1–2 × 1018 cm−3, while layers grown under identical conditions but with 6° miscut toward the [001] direction exhibit low electron mobilities of around 10 cm2 V−1 s−1. By using high-resolution scanning transmission electron microscopy and atomic force microscopy, we find significant differences in the surface morphologies of the substrates after annealing and of the layers in dependence on their miscut direction. While substrates with miscuts toward [00 1 ¯ ] exhibit monolayer steps terminated by ( 2 ¯ 01) facets, mainly bilayer steps are found for miscuts toward [001]. Epitaxial growth on both substrates occurs in step-flow mode. However, while layers on substrates with a miscut toward [00 1 ¯ ] are free of structural defects, those on substrates with a miscut toward [001] are completely twinned with respect to the substrate and show stacking mismatch boundaries. This twinning is promoted at step edges by transformation of the (001)-B facets into ( 2 ¯ 01) facets. Density functional theory calculations of stoichiometric low index surfaces show that the ( 2 ¯ 01) facet has the lowest surface energy following the (100) surface. We conclude that facet transformation at the step edges is driven by surface energy minimization for the two kinds of crystallographically inequivalent miscut orientations in the monoclinic lattice of β-Ga2O3. [ABSTRACT FROM AUTHOR]

Published
2019
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40. Reproducibility in density functional theory calculations of solids

Author

Lejaeghere, K., Bihlmayer, G., Bjorkman, T., Blaha, P., Blugel, S., Blum, V., Caliste, D., Castelli, I.E., Clark, S.J., Dal Corso, A., de Gironcoli, S., Deutsch, T., Dewhurst, J.K., Di Marco, I., Draxl, C., Dulak, M., Eriksson, O., Flores-Livas, J.A., Garrity, K.F., Genovese, L., Giannozzi, P., Giantomassi, M., Goedecker, S., Gonze, X., Granas, O., Gross, E.K.U., Gulans, A., Gygi, F., Hamann, D.R., Hasnip, P.J., Holzwarth, N.A.W., Iusan, D., Jochym, D.B., Jollet, F., Jones, Daniel, Kresse, G., Koepernik, K., Kucukbenli, E., Kvashnin, Y.O., Locht, I.L.M., Lubeck, S., Marsman, M., Marzari, N., Nitzsche, U., Nordstrom, L., Ozaki, T., Paulatto, L., Pickard, C.J., Poelmans, W., Probert, M.I.J., Refson, K., Richter, M., Rignanese, G.M., Saha, S., Scheffler, M., Schlipf, M., Schwarz, K., Sharma, Sangeeta, Tavazza, F., Thunstrom, P., Tkatchenko, A., Torrent, M., Vanderbilt, D., van Setten, M.J., Van Speybroeck, V., Wills, J.M., Yates, J.R., Zhang, G.X., Cottenier, S., Lejaeghere, K., Bihlmayer, G., Bjorkman, T., Blaha, P., Blugel, S., Blum, V., Caliste, D., Castelli, I.E., Clark, S.J., Dal Corso, A., de Gironcoli, S., Deutsch, T., Dewhurst, J.K., Di Marco, I., Draxl, C., Dulak, M., Eriksson, O., Flores-Livas, J.A., Garrity, K.F., Genovese, L., Giannozzi, P., Giantomassi, M., Goedecker, S., Gonze, X., Granas, O., Gross, E.K.U., Gulans, A., Gygi, F., Hamann, D.R., Hasnip, P.J., Holzwarth, N.A.W., Iusan, D., Jochym, D.B., Jollet, F., Jones, Daniel, Kresse, G., Koepernik, K., Kucukbenli, E., Kvashnin, Y.O., Locht, I.L.M., Lubeck, S., Marsman, M., Marzari, N., Nitzsche, U., Nordstrom, L., Ozaki, T., Paulatto, L., Pickard, C.J., Poelmans, W., Probert, M.I.J., Refson, K., Richter, M., Rignanese, G.M., Saha, S., Scheffler, M., Schlipf, M., Schwarz, K., Sharma, Sangeeta, Tavazza, F., Thunstrom, P., Tkatchenko, A., Torrent, M., Vanderbilt, D., van Setten, M.J., Van Speybroeck, V., Wills, J.M., Yates, J.R., Zhang, G.X., and Cottenier, S.

Abstract

Contains fulltext : 158675.pdf (Publisher’s version ) (Closed access)

Published
2016

41. Reproducibility in density functional theory calculations of solids

Author

UCL - SST/IMCN/NAPS - Nanoscopic Physics, Lejaeghere, K., Bihlmayer, G., Bjorkman, T., Blaha, P., Blugel, S., Blum, V., Caliste, D., Castelli, I. E., Clark, S. J., Dal Corso, A., de Gironcoli, S., Deutsch, T., Dewhurst, J. K., Di Marco, I., Draxl, C., Du ak, M., Eriksson, O., Flores-Livas, J. A., Garrity, K. F., Genovese, L., Giannozzi, P., Giantomassi, Matteo, Goedecker, S., Gonze, Xavier, Granas, O., Gross, E. K. U., Gulans, A., Gygi, F., Hamann, D. R., Hasnip, P. J., Holzwarth, N. A. W., Iu an, D., Jochym, D. B., Jollet, F., Jones, D., Kresse, G., Koepernik, K., Kucukbenli, E., Kvashnin, Y. O., Locht, I. L. M., Lubeck, S., Marsman, M., Marzari, N., Nitzsche, U., Nordstrom, L., Ozaki, T., Paulatto, L., Pickard, C. J., Poelmans, W., Probert, M. I. J., Refson, K., Richter, M., Rignanese, Gian-Marco, Saha, S., Scheffler, M., Schlipf, M., Schwarz, K., Sharma, S., Tavazza, F., Thunstrom, P., Tkatchenko, A., Torrent, M., Vanderbilt, D., van Setten, Michiel, Van Speybroeck, V., Wills, J. M., Yates, J. R., Zhang, G.-X., Cottenier, S., UCL - SST/IMCN/NAPS - Nanoscopic Physics, Lejaeghere, K., Bihlmayer, G., Bjorkman, T., Blaha, P., Blugel, S., Blum, V., Caliste, D., Castelli, I. E., Clark, S. J., Dal Corso, A., de Gironcoli, S., Deutsch, T., Dewhurst, J. K., Di Marco, I., Draxl, C., Du ak, M., Eriksson, O., Flores-Livas, J. A., Garrity, K. F., Genovese, L., Giannozzi, P., Giantomassi, Matteo, Goedecker, S., Gonze, Xavier, Granas, O., Gross, E. K. U., Gulans, A., Gygi, F., Hamann, D. R., Hasnip, P. J., Holzwarth, N. A. W., Iu an, D., Jochym, D. B., Jollet, F., Jones, D., Kresse, G., Koepernik, K., Kucukbenli, E., Kvashnin, Y. O., Locht, I. L. M., Lubeck, S., Marsman, M., Marzari, N., Nitzsche, U., Nordstrom, L., Ozaki, T., Paulatto, L., Pickard, C. J., Poelmans, W., Probert, M. I. J., Refson, K., Richter, M., Rignanese, Gian-Marco, Saha, S., Scheffler, M., Schlipf, M., Schwarz, K., Sharma, S., Tavazza, F., Thunstrom, P., Tkatchenko, A., Torrent, M., Vanderbilt, D., van Setten, Michiel, Van Speybroeck, V., Wills, J. M., Yates, J. R., Zhang, G.-X., and Cottenier, S.

Abstract

The widespread popularity of density functional theory has given rise to an extensive range of dedicated codes for predicting molecular and crystalline properties. However, each code implements the formalism in a different way, raising questions about the reproducibility of such predictions. We report the results of a community-wide effort that compared 15 solid-state codes, using 40 different potentials or basis set types, to assess the quality of the Perdew-Burke-Ernzerhof equations of state for 71 elemental crystals. We conclude that predictions from recent codes and pseudopotentials agree very well, with pairwise differences that are comparable to those between different high-precision experiments. Older methods, however, have less precise agreement. Our benchmark provides a framework for users and developers to document the precision of new applications and methodological improvements.

Published
2016

42. XMCD Spectra Based on DensityFunctional Theory

Author

Pardini, L., Manghi, Franca, Bellini, V., and Ambrosch Draxl, C.

Subjects
Simulazione teorica di spettroscopie assorbimento di raggi X metodi da principi primi struttura della materia meccanica quantistica
Published
2011

44. The Be K-edge in beryllium oxide and chalcogenides : soft x-ray absorption spectra from first-principles theory and experiment

Author

Olovsson, Weine, Weinhardt, L, Fuchs, O, Tanaka, I, Puschnig, P, Umbach, E, Heske, C, Draxl, C, Olovsson, Weine, Weinhardt, L, Fuchs, O, Tanaka, I, Puschnig, P, Umbach, E, Heske, C, and Draxl, C

Abstract

We have carried out a theoretical and experimental investigation of the beryllium K-edge soft x-ray absorption fine structure of beryllium compounds in the oxygen group, considering BeO, BeS, BeSe, and BeTe. Theoretical spectra are obtained ab initio, through many-body perturbation theory, by solving the Bethe–Salpeter equation (BSE), and by supercell calculations using the core-hole approximation. All calculations are performed with the full-potential linearized augmented plane-wave method. It is found that the two different theoretical approaches produce a similar fine structure, in good agreement with the experimental data. Using the BSE results, we interpret the spectra, distinguishing between bound core-excitons and higher energy excitations., Funding Agencies|Linkoping Linnaeus Initiative for Novel Functional Materials (LiLi-NFM)||Swedish Research Council (VR)||VR grant|691-2011-4426|Swedish National Infrastructure for Computing (SNIC)||Ministry of Education, Culture, Sports, Science and Technology (MEXT) of Japan||European Theoretical Spectroscopy Facility (ETSF)||Deutsche Forschungsgemeinschaft|SFB 410

Published
2013
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45. Doping induced charge redistribution in the high temperature superconductor HgBa2CuO4

Author

S��le, P., Ambrosch-Draxl, C., Auer, H., and Sherman, E. Y.

Subjects
Superconductivity (cond-mat.supr-con), Condensed Matter::Materials Science, Condensed Matter::Superconductivity, Condensed Matter - Superconductivity, FOS: Physical sciences, Condensed Matter::Strongly Correlated Electrons
Abstract

To understand the link between doping and electronic properties in high temperature superconductors, we report first-principles calculations on the oxygen doping effect for the single layer cuprate HgBa$_2$CuO$_{4+\delta}$. The doping effect is studied both by supercell and single cell virtual crystal type approaches. We find ionic behavior of the dopant atom up to an optimal doping concentration of $\delta=0.22$. The excess oxygen attracts electrons from the CuO$_2$ plane leading to an increase of the hole concentration in this building block. The maximum amount of holes is reached when the oxygen $p$-shell is nearly completely filled. As a consequence the density of states at the Fermi level exhibits a pronounced maximum at the optimal oxygen content. The calculated hole content as a function of doping is in accordance with experimental findings., Comment: 4 pages, 4 figures, comments to sule@mfa.kfki.hu

Published
2001

46. First Principles Investigation of SrBi2Ta2O9

Author

Stachiotti, Marcelo Gabriel, Rodríguez, Carlos Osvaldo, Ambrosch Draxl, C., and Christensen, N. B.

Subjects
Electronic structure, LDA, Física, SBT
Abstract

The electronic structure of SrBi2Ta2O9 (SBT) is investigated from first-principles, within the local density approximation, using the full-potential linearized augmented plane wave (LAPW) method. The results show that, besides the large Ta(5d)-O(2p) hybridization which is a common feature of the ferroelectric perovskites, there is an important hybridization between bismuth and oxygen states. The role played by these two covalent bonds for driving the ferroelectric instability in SBT is investigated., Instituto de Física de Líquidos y Sistemas Biológicos

Published
2000

47. Al L-2,L-3 edge x-ray absorption spectra in III-V semiconductors: Many-body perturbation theory in comparison with experiment

Author

Olovsson, W., Tanaka, I., Mizoguchi, T., Radtke, G., Puschnig, P., Ambrosch-Draxl, C., Olovsson, W., Tanaka, I., Mizoguchi, T., Radtke, G., Puschnig, P., and Ambrosch-Draxl, C.

Abstract

We investigate core excitations of the Al 2p edge in the III-V semiconductors AlP, AlAs, AlSb, and AlN. For the latter, we consider the wurtzite, zinc-blende, and rock-salt polymorphs. First-principles calculations are performed utilizing two different approaches, which are the solution of the Bethe-Salpeter equation (BSE) as well as the supercell technique employing the core-hole approximation. In addition, measurements of the electron energy-loss near-edge structure of the metastable AlN phase are presented. We find that the relative intensities of the spectral features are better described by the BSE than by the supercell method. We analyze the character of the near-edge peaks and trace back their origin to strongly bound core excitons in the case of AlSb and rock-salt AlN.

Published
2011

48. Al L-2,L-3 edge x-ray absorption spectra in III-V semiconductors: Many-body perturbation theory in comparison with experiment

Author

70183861, Olovsson, W., Tanaka, I., Mizoguchi, T., Radtke, G., Puschnig, P., Ambrosch-Draxl, C., 70183861, Olovsson, W., Tanaka, I., Mizoguchi, T., Radtke, G., Puschnig, P., and Ambrosch-Draxl, C.

Abstract

We investigate core excitations of the Al 2p edge in the III-V semiconductors AlP, AlAs, AlSb, and AlN. For the latter, we consider the wurtzite, zinc-blende, and rock-salt polymorphs. First-principles calculations are performed utilizing two different approaches, which are the solution of the Bethe-Salpeter equation (BSE) as well as the supercell technique employing the core-hole approximation. In addition, measurements of the electron energy-loss near-edge structure of the metastable AlN phase are presented. We find that the relative intensities of the spectral features are better described by the BSE than by the supercell method. We analyze the character of the near-edge peaks and trace back their origin to strongly bound core excitons in the case of AlSb and rock-salt AlN.

Published
2011

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