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208 results on '"Thunström, Patrik"'

1. Topological magnon in exchange frustration driven incommensurate spin spiral of a kagome lattice YMn$_6$Sn$_6$

Author

Sadhukhan, Banasree, Bergman, Anders, Thunström, Patrik, Lopez, Manuel Pereiro, Eriksson, Olle, and Delin, Anna

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

YMn$_6$Sn$_6$ consists of two types of Mn-based kagome planes stacked along $c$-axis having a complex magnetic interactions. We report a spin reconstruction in YMn$_6$Sn$_6$ from ferromagnet (FM) into a combination of two incommensurate spin spirals (SSs) originating from two different type of Mn kagome planes driven by frustrated magnetic exchanges along the $c$-axis with inclusion of Hubbard U. The pitch angle and wave vector of the incommensurate SSs are $\sim$89.3$^{\circ}$ and $\sim$ (0 0 0.248) respectively which are in excellent agreement with experiment. We employed an effective model Hamiltonian constructed out of exchange interactions to capture experimentally observed non-equivalent nature of the two incommensurate SSs which also explain FM-SS crossover due to antiferromagntic spin exchange with correlation. We further report the existence of topological magnon with spin-orbit coupling in incommensurate SS phase of YMn$_6$Sn$_6$ by calculating the topological invariants and Berry curvature profile. The location of Dirac magnon in energy landscape at 73 meV matches with another experimental report. We demonstrate the accuracy of our results by highlighting experimental features in YMn$_6$Sn$_6$.

Published
2024

2. Theory of x-ray absorption spectroscopy for ferrites

Author

Sorgenfrei, Felix, Alouani, Mébarek, Schött, Johan, Jönsson, H. Johan M., Eriksson, Olle, and Thunström, Patrik

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The theoretical calculation of the interaction of electromagnetic radiation with matter remains a challenging problem for contemporary $ab$ $initio$ electronic structure methods, in particular for x-ray spectroscopies. This is not only due to the strong interaction between the core-hole and the photo-excited electron, but also due to the elusive multiplet effects that arise from the Coulomb interaction among the valence electrons. In this work we report a method based on density-functional theory in conjunction with multiplet ligand-field theory to investigate various core-level spectroscopies, in particular x-ray absorption spectroscopy (XAS) and x-ray magnetic circular dichroism (XMCD). The developed computational scheme is applied to the $L_{2,3}$ XAS edges of magnetite (Fe$_3$O$_4$) as well as cobalt ferrite (CoFe$_2$O$_4$) and nickel ferrite (NiFe$_2$O$_4$) and the corresponding XMCD spectra. The results are in overall good agreement with experimental observations, both regarding the XAS $L_2$/$L_3$ branching ratio, the peak positions as well as the relative intensities. The agreement between theory and experiment is equally good for XAS and the XMCD spectra, for all studied systems. The results are analyzed in terms of $e_g$ and $t_{2g}$ orbitals contributions and the importance of optimizing the Slater parameters. The analysis also highlights the strong effect of the $2p$-$3d$ interaction in x-ray spectroscopy., Comment: 18 pages, 15 figures

Published
2024

3. Microscopic effect of spin-lattice couplings on dynamical magnetic interactions of a skyrmion system PdFe/Ir(111)

Author

Sadhukhan, Banasree, Bergman, Anders, Hellsvik, Johan, Thunström, Patrik, and Delin, Anna

Subjects
Condensed Matter - Materials Science
Abstract

PdFe/Ir(111) has attracted tremendous attention for next-generation spintronics devices due to existence of magnetic skyrmions with the external magnetic field. Our density functional theoretical calculations in combination with spin dynamics simulation suggest that the spin spiral phase in fcc stacked PdFe/Ir(111) flips into the skyrmion lattice phase around B$_{ext} \sim$ 6 T. This leads to the microscopic understanding of the thermodynamic and kinetic behaviours affected by the intrinsic spin-lattice couplings (SLCs) in this skyrmion material for magneto-mechanical properties. Here we calculate fully relativistic SLC parameters from first principle computations and investigate the effect of SLC on dynamical magnetic interactions in skyrmion multilayers PdFe/Ir(111). The exchange interactions arising from next nearest-neighbors (NN) in this material are highly frustrated and responsible for enhancing skyrmion stability. We report the larger spin-lattice effect on both dynamical Heisenberg exchanges and Dzyaloshinskii-Moriya interactions for next NN compared to NN which is in contrast with recently observed spin-lattice effect in bulk bcc Fe and CrI$_3$ monolayer. Based on our analysis, we find that the effective measures of SLCs in fcc (hcp) stacking of PdFe/Ir(111) are $\sim 2.71 ( \sim 2.36)$ and $\sim 14.71 ( \sim21.89)$ times stronger for NN and next NN respectively, compared to bcc Fe. The linear regime of displacement for SLC parameters is $\leq$ 0.02 {\AA} which is 0.72\% of the lattice constant for PdFe/Ir(111). The microscopic understanding of SLCs provided by our current study could help in designing spintronic devices based on thermodynamic properties of skyrmion multilayers., Comment: 8(main text)+4(appendix) pages and 5(main text)+4(appendix) figures

Published
2023

4. Two-dimensional heavy fermions in the van der Waals metal CeSiI

Author

Posey, Victoria A., Turkel, Simon, Rezaee, Mehdi, Devarakonda, Aravind, Kundu, Asish K., Ong, Chin Shen, Thinel, Morgan, Chica, Daniel G., Vitalone, Rocco A., Jing, Ran, Xu, Suheng, Needell, David R., Meirzadeh, Elena, Feuer, Margalit L., Jindal, Apoorv, Cui, Xiaomeng, Valla, Tonica, Thunström, Patrik, Yilmaz, Turgut, Vescovo, Elio, Graf, David, Zhu, Xiaoyang, Scheie, Allen, May, Andrew F., Eriksson, Olle, Basov, D. N., Dean, Cory R., Rubio, Angel, Kim, Philip, Ziebel, Michael E., Millis, Andrew J., Pasupathy, Abhay N., and Roy, Xavier

Published
2024
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5. Dynamical correlations in single-layer CrI$_3$

Author

Kvashnin, Yaroslav O., Rudenko, Alexander N., Thunström, Patrik, Rösner, Malte, and Katsnelson, Mikhail I.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Chromium triiodide is an intrinsically magnetic van der Waals material down to the single-layer limit. Here, we provide a first-principles description of finite-temperature magnetic and spectral properties of monolayer (ML) CrI$_3$ based on fully charge self-consistent density functional theory (DFT) combined with dynamical mean-field theory, revealing a formation of local moments on Cr from strong local Coulomb interactions. We show that the presence of local dynamical correlations leads to a modification of the electronic structure of ferromagnetically ordered CrI$_3$. In contrast to conventional DFT+$U$ calculations, we find that the top of the valence band in ML CrI$_3$ demonstrates essentially different orbital character for minority and majority spin states, which is closer to the standard DFT results. This leads to a strong spin polarization of the optical conductivity upon hole doping, which could be verified experimentally., Comment: Final version; 9 pages, 4 figures

Published
2020
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6. Heisenberg and anisotropic exchange interactions in magnetic materials with correlated electronic structure and significant spin-orbit coupling

Author

Borisov, Vladislav, Kvashnin, Yaroslav O., Ntallis, Nikolaos, Thonig, Danny, Thunström, Patrik, Pereiro, Manuel, Bergman, Anders, Sjöqvist, Erik, Delin, Anna, Nordström, Lars, and Eriksson, Olle

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Other Condensed Matter
Abstract

The Dzyaloshinskii-Moriya (DM) interaction, as well as symmetric anisotropic exchange, are important ingredients for stabilizing topologically non-trivial magnetic textures, such as, e.g., skyrmions, merons and hopfions. These types of textures are currently in focus from a fundamental science perspective and they are also discussed in the context of future spintronics information technology. While the theoretical understanding of the Heisenberg exchange interactions is well developed, it is still a challenge to access, from first principles theory, the DM interaction as well as the symmetric anisotropic exchange, which both require a fully-relativistic treatment of the electronic structure, in magnetic systems where substantial electron-electron correlations are present. Here, we present results of a theoretical framework which allows to compute these interactions in any given system and demonstrate its performance for several selected cases, for both bulk and low-dimensional systems. We address several representative cases, including the bulk systems CoPt and FePt, the B20 compounds MnSi and FeGe as well as the low-dimensional transition metal bilayers Co/Pt(111) and Mn/W(001). The effect of electron-electron correlations is analyzed using dynamical mean-field theory on the level of the spin-polarized $T$-matrix + fluctuating exchange (SPTF) approximation, as regards the strength and character of the isotropic (Heisenberg) and anisotropic (DM) interactions in relation to the underlying electronic structure. Our method can be combined with more advanced techniques for treating correlations, e.g., quantum Monte Carlo and exact diagonalization methods for the impurity solver of dynamical mean-field theory. We find that correlation-induced changes of the DM interaction can be rather significant, with up to five-fold modifications in the most distinctive case., Comment: 20 pages, 22 figures

Published
2020
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7. Orbital and electronic entanglement in quantum teleportation schemes

Author

Galler, Anna and Thunström, Patrik

Subjects
Quantum Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

With progress towards more compact quantum computing architectures, fundamental questions regarding the entanglement of indistinguishable particles need to be addressed. In a solid state device, this quest is naturally connected to the quantum correlations of electrons. Here, we investigate the entanglement between electrons, focusing on the entanglement of modes, the entanglement of particles and the effect of particle-number superselection rules. We elucidate the formation of mode and particle entanglement in strongly correlated materials and show that both represent important resources in quantum information tasks such as quantum teleportation. To this end, we qualitatively and quantitatively analyze the entanglement in three electronic teleportation schemes: (i) quantum teleportation within a molecule on graphene, (ii) a nitrogen-vacancy center and (iii) a quantum dot array.

Published
2020
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8. Topology of SmB$_6$ determined by dynamical mean field theory

Author

Thunström, Patrik and Held, Karsten

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Whether SmB6 is a topological insulator remains hotly debated. Our density functional theory plus dynamical mean field theory calculations are in excellent agreement with a large range of experiments, from the 4f5.5 intermediate valency to x-ray and photoemission spectra. Using the pole extended (PE) Hamiltonian, which fully captures the self-energy, we show that SmB6 is a strongly correlated topological insulator, albeit not a Kondo insulator. The PE Hamiltonian is proved to be topological (in)equivalent to the topological Hamiltonian for (non-)local self-energies. The topological surface states are analyzed, addressing conflicting interpretations of photoemission data., Comment: The Supplemental Material starts at page 7

Published
2019
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9. Generic optical excitations of correlated systems: $\pi$-tons

Author

Kauch, Anna, Pudleiner, Petra, Astleithner, Katharina, Thunström, Patrik, Ribic, Tin, and Held, Karsten

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The interaction of light with solids gives rise to new bosonic quasiparticles, with the exciton being---undoubtedly---the most famous of these polaritons. While excitons are the generic polaritons of semiconductors, we show that for strongly correlated systems another polariton is prevalent---originating from the dominant antiferromagnetic or charge density wave fluctuations in these systems. As these are usually associated with a wave vector ${\mathbf k}= (\pi,\pi,\ldots)$ or close to it, we propose to call the derived polaritons $\pi$-tons. These $\pi$-tons yield the leading vertex correction to the optical conductivity in all correlated models studied: the Hubbard, the extended Hubbard model, the Falicov-Kimball, and the Pariser-Parr-Pople model, both in the insulating and in the metallic phase., Comment: 6 pages, 3 figures + Supplemental Material (6 pages, 8 figures)

Published
2019
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10. Parquet approximation for molecules: spectrum and optical conductivity of the Pariser-Parr-Pople model

Author

Pudleiner, Petra, Thunström, Patrik, Valli, Angelo, Kauch, Anna, Li, Gang, and Held, Karsten

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We study a simple model system for the conjugated $\pi$-bonds in benzene, the Pariser-Parr-Pople (PPP) model, within the parquet approximation (PA), exemplifying the prospects of the PA for molecules. Advantages of the PA are the polynomial scaling with the number of orbitals, and the natural calculation of one- and two-particle spectral functions as well as of response and correlation functions. We find large differences in the electronic correlations in the PPP model compared to a Hubbard model with only local interactions. The quasiparticle renormalization (or mass enhancement) is much weaker in the PPP than in the Hubbard model, but the static part of the self-energy enhances the band gap of the former. Furthermore, the vertex corrections to the optical conductivity are much more important in the PPP model. Because non-local interactions strongly alter the self-energy, we conclude that the PA is more suitable for calculating conjugated $\pi$-bonds in molecules than single site dynamical mean-field theory., Comment: 14 pages, 7 figures

Published
2018
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11. Electronic structure of Bi nanolines on InAs(100)

Author

Nafday, Dhani, Richter, Christine, Heckmann, Olivier, Wang, Weimin, Mariot, Jean-Michel, Djukic, Uros, Vobornik, Ivana, Lefevre, Patrick, Taleb-Ibrahimi, Amina, Bertran, Franco̧is, Rault, Julien, Nicolaï, Laurent, Ong, Chin Shen, Thunström, Patrik, Hricovini, Karol, Minár, Ján, and Di Marco, Igor

Published
2023
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13. A systematic study of the local minima in L(S)DA+U

Author

Keshavarz, Samara and Thunström, Patrik

Subjects
Condensed Matter - Materials Science
Abstract

We have performed a systematic study of the emergence of meta-stable states in density functional theory plus Hubbard U (DFT+U ) simulations of NiO, CoO, FeO. Particular attention is given to the spin-polarization of the exchange-correlation functional and the double counting term, and the role of the spin-orbit coupling. The method of occupation matrix control is extended to use constrained random density matrices to map out the local minima in the total energy landscape. The extended scheme, random density matrix control, is successfully benchmarked against UO2, one of the most investigated systems in the field. When applied to the transition metal oxides it yields several meta- stable states which are well-characterized by their local spin and orbital moments. We find that the addition of spin-orbit coupling helps the simulations to converge to the global high-spin energy minimum. The random density matrix control scheme combined with LDA+U yields accurate magnetic moments for all the studied AFM transition metal oxides., Comment: 14 figures

Published
2018

14. Analytical investigation of singularities in two-particle irreducible vertex functions of the Hubbard atom

Author

Thunström, Patrik, Gunnarsson, Olle, Ciuchi, Sergio, and Rohringer, Georg

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Two-particle generalized susceptibilities and their irreducible vertex functions play a prominent role in the quantum many-body theory for correlated electron systems. They act as basic building blocks in the parquet formalism which provides a flexible scheme for the calculation of spectral and response functions. The irreducible vertices themselves have recently attracted increased attention as unexpected divergences in these functions have been identified. Remarkably, such singularities appear already for one of the simplest strongly interacting systems: the atomic limit of the half-filled Hubbard model (Hubbard atom). In this paper, we calculate the analytical expressions for all two-particle irreducible vertex functions of the Hubbard atom in all scattering channels as well as the fully irreducible two-particle vertices. We discuss their divergences and classify them by the eigenvalues and eigenvectors of the corresponding generalized susceptibilities. In order to establish a connection to the recently found multivaluedness of the exact self-energy functional $\Sigma[G]$, we show that already an approximation akin to iterated perturbation theory is sufficient to capture, qualitatively, the divergent structure of the vertex functions. Finally, we show that the localized divergences in the disordered binary mixture model are directly linked to a minimum in the single-particle Matsubara Green's function., Comment: 16 pages, 3 figures

Published
2018
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15. The AbinitioD$\Gamma$A Project v1.0: Non-local correlations beyond and susceptibilities within dynamical mean-field theory

Author

Galler, Anna, Thunström, Patrik, Kaufmann, Josef, Pickem, Matthias, Tomczak, Jan M., and Held, Karsten

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The ab initio extension of the dynamical vertex approximation (D$\Gamma$A) method allows for realistic materials calculations that include non-local correlations beyond $GW$ and dynamical mean-field theory. Here, we discuss the AbinitioD$\Gamma$A algorithm, its implementation and usage in detail, and make the program package available to the scientific community.

Published
2017
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16. Theory of $L$-edge spectroscopy of strongly correlated systems

Author

Lüder, Johann, Schött, Johan, Brena, Barbara, Haverkort, Maurits W., Thunström, Patrik, Eriksson, Olle, Sanyal, Biplab, Di Marco, Igor, and Kvashnin, Yaroslav O.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

X-ray absorption spectroscopy measured at the $L$-edge of transition metals (TMs) is a powerful element-selective tool providing direct information about the correlation effects in the $3d$ states. The theoretical modeling of the $2p\rightarrow3d$ excitation processes remains to be challenging for contemporary \textit{ab initio} electronic structure techniques, due to strong core-hole and multiplet effects influencing the spectra. In this work we present a realization of the method combining the density-functional theory with multiplet ligand field theory, proposed in Haverkort et al. (https://link.aps.org/doi/10.1103/PhysRevB.85.165113), Phys. Rev. B 85, 165113 (2012). In this approach a single-impurity Anderson model (SIAM) is constructed, with almost all parameters obtained from first principles, and then solved to obtain the spectra. In our implementation we adopt the language of the dynamical mean-field theory and utilize the local density of states and the hybridization function, projected onto TM $3d$ states, in order to construct the SIAM. The developed computational scheme is applied to calculate the $L$-edge spectra for several TM monoxides. A very good agreement between the theory and experiment is found for all studied systems. The effect of core-hole relaxation, hybridization discretization, possible extensions of the method as well as its limitations are discussed., Comment: 8 figures

Published
2017
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18. Ab initio dynamical vertex approximation

Author

Galler, Anna, Thunström, Patrik, Gunacker, Patrik, Tomczak, Jan M., and Held, Karsten

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

Diagrammatic extensions of dynamical mean field theory (DMFT) such as the dynamical vertex approximation (D$\Gamma$A) allow us to include non-local correlations beyond DMFT on all length scales and proved their worth for model calculations. Here, we develop and implement an AbinitioD$\Gamma$A approach for electronic structure calculations of materials. Starting point is the two-particle irreducible vertex in the two particle-hole channels which is approximated by the bare non-local Coulomb interaction and all local vertex corrections. From this we calculate the full non-local vertex and the non-local self-energy through the Bethe-Salpeter equation. The AbinitioD$\Gamma$A approach naturally generates all local DMFT correlations and all non-local $GW$ contributions, but also further non-local correlations beyond: mixed terms of the former two and non-local spin fluctuations. We apply this new methodology to the prototypical correlated metal SrVO$_3$., Comment: 13 pages, 6 figures

Published
2016
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19. Efficient implementation of the parquet equations -- role of the reducible vertex function and its kernel approximation

Author

Li, Gang, Wentzell, Nils, Pudleiner, Petra, Thunström, Patrik, and Held, Karsten

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We present an efficient implementation of the parquet formalism which respects the asymptotic structure of the vertex functions at both single- and two-particle levels in momentum- and frequency-space. We identify the two-particle reducible vertex as the core function which is essential for the construction of the other vertex functions. This observation stimulates us to consider a two-level parameter-reduction for this function to simplify the solution of the parquet equations. The resulting functions, which depend on fewer arguments, are coined "kernel functions". With the use of the "kernel functions", the open boundary of various vertex functions in the Matsubara-frequency space can be faithfully satisfied. We justify our implementation by accurately reproducing the dynamical mean-field theory results from momentum-independent parquet calculations. The high-frequency asymptotics of the single-particle self-energy and the two-particle vertex are correctly reproduced, which turns out to be essential for the self-consistent determination of the parquet solutions. The current implementation is also feasible for the dynamical vertex approximation., Comment: 12 pages, 11 figures

Published
2015
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20. Correlated electron behavior of metalorganic molecules: insights from density functional theory combined with many-body effects using exact diagonalization

Author

Bhandary, Sumanta, Schüler, Malte, Thunström, Patrik, di Marco, Igor, Brena, Barbara, Eriksson, Olle, Wehling, Tim, and Sanyal, Biplab

Subjects
Condensed Matter - Materials Science
Abstract

A proper theoretical description of electronic structure of the 3d orbitals in the metal centers of functional metalorganics is a challenging problem. In this letter, we apply density functional theory and an exact diagonalization method in a many body approach to study the ground state electronic configuration of an iron porphyrin (FeP) molecule. Our study reveals that dynamical correlation effects are important, and FeP is a potential candidate for realizing a spin crossover due to a subtle balance of crystal field effects, on-site Coulomb repulsion and hybridization between the Fe d-orbitals and ligand N p-states. The mechanism of switching between two close lying electronic configurations of Fe-d orbitals is shown. We discuss the generality of the suggested approach and the possibility to properly describe the electronic structure and related low energy physics of the whole class of correlated metal centered organometallic molecules.

Published
2015
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21. Efficient DMFT impurity solver using real-time dynamics with Matrix Product States

Author

Ganahl, Martin, Aichhorn, Markus, Thunström, Patrik, Held, Karsten, Evertz, Hans Gerd, and Verstraete, Frank

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We propose to calculate spectral functions of quantum impurity models using the Time Evolving Block Decimation (TEBD) for Matrix Product States. The resolution of the spectral function is improved by a so-called linear prediction approach. We apply the method as an impurity solver within the Dynamical Mean Field Theory (DMFT) for the single- and two-band Hubbard model on the Bethe lattice. For the single-band model we observe sharp features at the inner edges of the Hubbard bands. A finite size scaling shows that they remain present in the thermodynamic limit. We analyze the real time-dependence of the double occupation after adding a single electron and observe oscillations at the same energy as the sharp feature in the Hubbard band, indicating a long-lived coherent superposition of states that correspond to the Kondo peak and the side peaks. For a two-band Hubbard model we observe an even richer structure in the Hubbard bands, which cannot be related to a multiplet structure of the impurity, in addition to sharp excitations at the band edges of a type similar to the single-band case., Comment: 14 figures, 12 + pages including appendix. New Fig. 4b, Fig. 6, Fig.10, Fig.11 and Fig.A4

Published
2014
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22. Chebyshev expansion for Impurity Models using Matrix Product States

Author

Ganahl, Martin, Thunström, Patrik, Verstraete, Frank, Held, Karsten, and Evertz, Hans Gerd

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We improve a recently developed expansion technique for calculating real frequency spectral functions of any one-dimensional model with short-range interactions, by postprocessing computed Chebyshev moments with linear prediction. This can be achieved at virtually no cost and, in sharp contrast to existing methods based on the dampening of the moments, improves the spectral resolution rather than lowering it. We validate the method for the exactly solvable resonating level model and the single impurity Anderson model. It is capable of resolving sharp Kondo resonances, as well as peaks within the Hubbard bands when employed as an impurity solver for dynamical mean-field theory (DMFT). Our method works at zero temperature and allows for arbitrary discretization of the bath spectrum. It achieves similar precision as the dynamical density matrix renormalization group (DDMRG), at lower cost. We also propose an alternative expansion, of 1-exp(-tau H) instead of the usual H, which opens the possibility of using established methods for the time evolution of matrix product states to calculate spectral functions directly., Comment: 13 pages, 9 figures

Published
2014
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24. Electronic entanglement in late transition metal oxides

Author

Thunström, Patrik, Di Marco, Igor, and Eriksson, Olle

Subjects
Condensed Matter - Strongly Correlated Electrons, Quantum Physics
Abstract

Here we present a study of the entanglement in the electronic structure of the late transition metal monoxides - MnO, FeO, CoO, and NiO - obtained by means of density-functional theory in the local density approximation combined with dynamical mean-field theory (LDA+DMFT). The impurity problem is solved through Exact Diagonalization (ED), which grants full access to the thermally mixed many-body ground state density operator. The quality of the electronic structure is affirmed through a direct comparison between the calculated electronic excitation spectrum and photoemission experiments. Our treatment allows for a quantitative investigation of the entanglement in the electronic structure. Two main sources of entanglement are explicitly resolved through the use of a fidelity based geometrical entanglement measure, and additional information is gained from a complementary entropic entanglement measure. We show that the interplay of crystal field effects and Coulomb interaction causes the entanglement in CoO to take a particularly intricate form., Comment: Minor changes. Journal reference added

Published
2012
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25. Magnetism in AV3Sb5 ( A=Cs,Rb,K ): Complex landscape of dynamical magnetic textures

Author

Karmakar, Debjani, primary, Pereiro, Manuel, additional, Hasan, Md. Nur, additional, Bharati, Ritadip, additional, Hellsvik, Johan, additional, Delin, Anna, additional, Pal, Samir Kumar, additional, Bergman, Anders, additional, Sharma, Shivalika, additional, Di Marco, Igor, additional, Thunström, Patrik, additional, Oppeneer, Peter M., additional, and Eriksson, Olle, additional

Published
2023
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26. Magnetism in AV3Sb5 ( A=Cs , Rb, and K): Origin and Consequences for the Strongly Correlated Phases

Author

Hasan, Md. Nur, primary, Bharati, Ritadip, additional, Hellsvik, Johan, additional, Delin, Anna, additional, Pal, Samir Kumar, additional, Bergman, Anders, additional, Sharma, Shivalika, additional, Di Marco, Igor, additional, Pereiro, Manuel, additional, Thunström, Patrik, additional, Oppeneer, Peter M., additional, Eriksson, Olle, additional, and Karmakar, Debjani, additional

Published
2023
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27. Adiabatic Approximation for weakly open systems

Author

Thunström, Patrik, Åberg, Johan, and Sjöqvist, Erik

Subjects
Quantum Physics
Abstract

We generalize the adiabatic approximation to the case of open quantum systems, in the joint limit of slow change and weak open system disturbances. We show that the approximation is ``physically reasonable'' as under wide conditions it leads to a completely positive evolution, if the original master equation can be written on a time-dependent Lindblad form. We demonstrate the approximation for a non-Abelian holonomic implementation of the Hadamard gate, disturbed by a decoherence process. We compare the resulting approximate evolution with numerical simulations of the exact equation., Comment: New material added, references added and updated, journal reference added

Published
2005
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28. The interplay of local electron correlations and ultrafast spin dynamics in fcc Ni

Author

Lojewski, Tobias, primary, Elhanoty, Mohamed F., additional, Le Guyader, Loïc, additional, Grånäs, Oscar, additional, Agarwal, Naman, additional, Boeglin, Christine, additional, Carley, Robert, additional, Castoldi, Andrea, additional, David, Christian, additional, Deiter, Carsten, additional, Döring, Florian, additional, Engel, RobinY, additional, Erdinger, Florian, additional, Fangohr, Hans, additional, Fiorini, Carlo, additional, Fischer, Peter, additional, Gerasimova, Natalia, additional, Gort, Rafael, additional, deGroot, Frank, additional, Hansen, Karsten, additional, Hauf, Steffen, additional, Hickin, David, additional, Izquierdo, Manuel, additional, Van Kuiken, Benjamin E., additional, Kvashnin, Yaroslav, additional, Lambert, Charles-Henri, additional, Lomidze, David, additional, Maffessanti, Stefano, additional, Mercadier, Laurent, additional, Mercurio, Giuseppe, additional, Miedema, Piter S., additional, Ollefs, Katharina, additional, Pace, Matthias, additional, Porro, Matteo, additional, Rezvani, Javad, additional, Rösner, Benedikt, additional, Rothenbach, Nico, additional, Samartsev, Andrey, additional, Scherz, Andreas, additional, Schlappa, Justina, additional, Stamm, Christian, additional, Teichmann, Martin, additional, Thunström, Patrik, additional, Turcato, Monica, additional, Yaroslavtsev, Alexander, additional, Zhu, Jun, additional, Beye, Martin, additional, Wende, Heiko, additional, Bovensiepen, Uwe, additional, Eriksson, Olle, additional, and Eschenlohr, Andrea, additional

Published
2023
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29. The interplay of local electron correlations and ultrafast spin dynamics in fcc Ni

Author

Lojewski, Tobias, Elhanoty, Mohamed F., Le Guyader, Loïc, Grånäs, Oscar, Agarwal, Naman, Boeglin, Christine, Carley, Robert, Castoldi, Andrea, David, Christian, Deiter, Carsten, Döring, Florian, Engel, Robin Y., Erdinger, Florian, Fangohr, Hans, Fiorini, Carlo, Fischer, Peter, Gerasimova, Natalia, Gort, Rafael, deGroot, Frank, Hansen, Karsten, Hauf, Steffen, Hickin, David, Izquierdo, Manuel, Van Kuiken, Benjamin E., Kvashnin, Yaroslav, Lambert, Charles Henri, Lomidze, David, Maffessanti, Stefano, Mercadier, Laurent, Mercurio, Giuseppe, Miedema, Piter S., Ollefs, Katharina, Pace, Matthias, Porro, Matteo, Rezvani, Javad, Rösner, Benedikt, Rothenbach, Nico, Samartsev, Andrey, Scherz, Andreas, Schlappa, Justina, Stamm, Christian, Teichmann, Martin, Thunström, Patrik, Turcato, Monica, Yaroslavtsev, Alexander, Zhu, Jun, Beye, Martin, Wende, Heiko, Bovensiepen, Uwe, Eriksson, Olle, Eschenlohr, Andrea, Lojewski, Tobias, Elhanoty, Mohamed F., Le Guyader, Loïc, Grånäs, Oscar, Agarwal, Naman, Boeglin, Christine, Carley, Robert, Castoldi, Andrea, David, Christian, Deiter, Carsten, Döring, Florian, Engel, Robin Y., Erdinger, Florian, Fangohr, Hans, Fiorini, Carlo, Fischer, Peter, Gerasimova, Natalia, Gort, Rafael, deGroot, Frank, Hansen, Karsten, Hauf, Steffen, Hickin, David, Izquierdo, Manuel, Van Kuiken, Benjamin E., Kvashnin, Yaroslav, Lambert, Charles Henri, Lomidze, David, Maffessanti, Stefano, Mercadier, Laurent, Mercurio, Giuseppe, Miedema, Piter S., Ollefs, Katharina, Pace, Matthias, Porro, Matteo, Rezvani, Javad, Rösner, Benedikt, Rothenbach, Nico, Samartsev, Andrey, Scherz, Andreas, Schlappa, Justina, Stamm, Christian, Teichmann, Martin, Thunström, Patrik, Turcato, Monica, Yaroslavtsev, Alexander, Zhu, Jun, Beye, Martin, Wende, Heiko, Bovensiepen, Uwe, Eriksson, Olle, and Eschenlohr, Andrea

Abstract

The complex electronic structure of metallic ferromagnets is determined by a balance between exchange interaction, electron hopping leading to band formation, and local Coulomb repulsion. By combining high energy and temporal resolution in femtosecond time-resolved X-ray absorption spectroscopy with ab initio time-dependent density functional theory we analyze the electronic structure in fcc Ni on the time scale of these interactions in a pump-probe experiment. We distinguish transient broadening and energy shifts in the absorption spectra, which we demonstrate to be captured by electron repopulation respectively correlation-induced modifications of the electronic structure, requiring to take the local Coulomb interaction into account.

Published
2023

30. Magnetic circular dichroism in the dd excitation in the van der Waals magnet CrI3 probed by resonant inelastic x-ray scattering

Author

Ghosh, Anirudha, Jönsson, H. Johan M., Mukkattukavil, D. John, Kvashnin, Yaroslav, Phuyal, Dibya, Thunström, Patrik, Agåker, Marcus, Nicolaou, Alessandro, Jonak, Martin, Klingeler, Ruediger, Kamalakar, M. Venkata, Sarkar, Tapati, Vasiliev, Alexander N., Butorin, Sergei, Eriksson, Olle, Abdel-Hafiez, Mahmoud, Ghosh, Anirudha, Jönsson, H. Johan M., Mukkattukavil, D. John, Kvashnin, Yaroslav, Phuyal, Dibya, Thunström, Patrik, Agåker, Marcus, Nicolaou, Alessandro, Jonak, Martin, Klingeler, Ruediger, Kamalakar, M. Venkata, Sarkar, Tapati, Vasiliev, Alexander N., Butorin, Sergei, Eriksson, Olle, and Abdel-Hafiez, Mahmoud

Abstract

We report on a combined experimental and theoretical study on CrI3 single crystals by employing the polarization dependence of resonant inelastic x-ray scattering (RIXS). Our investigations reveal multiple Cr 3d orbital splitting (dd excitations) as well as magnetic dichroism (MD) in the RIXS spectra. The dd excitation energies are similar on the two sides of the ferromagnetic transition temperature, T-C similar to 61 K, although MD in RIXS is predominant at 0.4 T magnetic field below TC. This demonstrates that the ferromagnetic superexchange interaction that is responsible for the interatomic exchange field is vanishingly small compared with the local exchange field that comes from exchange and correlation interaction among the interacting Cr 3d orbitals. The recorded RIXS spectra reported here reveal clearly resolved Cr 3d intraorbital dd excitations that represent transitions between electronic levels that are heavily influenced by dynamic correlations and multiconfiguration effects. Our calculations taking into account the Cr 3d hybridization with the ligand valence states and the full multiplet structure due to intra-atomic and crystal field interactions in Oh and D3d symmetry clearly reproduced the dichroic trend in experimental RIXS spectra.

Published
2023
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31. Pressure effect on the structural, electronic, and magnetic properties of the battery cathode material LiMn2O4 : An ab-initio study

Author

Sousa, O. M., Sorgenfrei, Felix, Assali, L. V. C., Lalic, M. V., Klautau, A. B., Thunström, Patrik, Araujo, Moyses, Eriksson, Olle, Petrilli, H. M., Sousa, O. M., Sorgenfrei, Felix, Assali, L. V. C., Lalic, M. V., Klautau, A. B., Thunström, Patrik, Araujo, Moyses, Eriksson, Olle, and Petrilli, H. M.

Abstract

LiMn2O4 is a battery cathode material with desirable properties such as low cost, low toxicity, high natural abundance of Mn, and environmental compatibility. By means of first-principles calculations, we study the structural, magnetic, and electronic properties of LiMn2O4 under ambient conditions and high hydrostatic pressures (until 20 GPa). We obtain two oxidation states for Mn, even using a cubic structure, which differ in all analyzed properties: structural, electronic, and magnetic. At P > 0, such properties were found to display a standard behavior decreasing smoothly and linearly with pressure. Furthermore, the enthalpy of cubic and orthorhombic structures under low and high-pressure conditions were examined, showing that no cubic to orthorhombic phase transition exists in all the investigated pressure range, nor is a magnetic cubic to a non-magnetic cubic phase transition possible.

Published
2023
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32. Magnetic properties of NdFe11Ti and YFe11Ti, from experiment and theory

Author

Herper, Heike C., Skokov, Konstantin P., Ener, Semih, Thunström, Patrik, Diop, Leopold V. B., Gutfleisch, Oliver, Eriksson, Olle, Herper, Heike C., Skokov, Konstantin P., Ener, Semih, Thunström, Patrik, Diop, Leopold V. B., Gutfleisch, Oliver, and Eriksson, Olle

Abstract

NdFe11Ti and YFe11Ti serve as prototypes for rare-earth (RE) lean or REfree magnets with the ThMn12-type structure. Although NdFe11Ti has been studied for a long time the origin of its complex magnetism at low temperature is so far not well-understood. We present a comprehensive theoretical and experimental study of the magnetic properties of NdFe11Ti and RE-free YFe11Ti to elucidate the influence of the 4f electrons. The partially localized 4 f electrons of Nd are the driving force behind the complex behavior of the magnetocrystalline anisotropy which changes from cone to uniaxial above 170 dK. The spontaneous magnetization and the five leading anisotropy constants were determined from high-quality single crystal samples over a wide temperature range using field dependencies of magnetization measured along the principle crystallographic directions. The experimental data are compared with density functional theory combined with a Hartree-Fock correction (+U) and an approximate dynamical mean-field theory.

Published
2023
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33. Magnetism in AV3Sb5 (A = Cs, Rb, K) : Complex landscape of dynamical magnetic textures

Author

Karmakar, Debjani, Pereiro, Manuel, Hasan, Md. Nur, Bharati, Ritadip, Hellsvik, Johan, Delin, Anna, Pal, Samir Kumar, Bergman, Anders, Sharma, Shivalika, Di Marco, Igor, Thunström, Patrik, Oppeneer, Peter M., Eriksson, Olle, Karmakar, Debjani, Pereiro, Manuel, Hasan, Md. Nur, Bharati, Ritadip, Hellsvik, Johan, Delin, Anna, Pal, Samir Kumar, Bergman, Anders, Sharma, Shivalika, Di Marco, Igor, Thunström, Patrik, Oppeneer, Peter M., and Eriksson, Olle

Abstract

We have investigated the dynamical magnetic properties of the V-based kagome stibnite compounds by combining the ab initio-extracted magnetic parameters of a spin-Hamiltonian, like inter-site exchange parameters, magnetocrystalline anisotropy and site projected magnetic moments, with full-fledged simulations of atomistic spin- dynamics. Our calculations reveal that, in addition to a ferromagnetic order along the [001] direction, the system hosts a complex landscape of magnetic configurations comprised of commensurate and incommensurate spin spirals along the [010] direction. The presence of such chiral magnetic textures may be the key toward solving the mystery about the origin of the experimentally observed inherent breaking of the C6 rotational, mirror, and the time-reversal symmetry.

Published
2023
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34. The interplay of local electron correlations and ultrafast spin dynamics in fcc Ni

Author

Materials Chemistry and Catalysis, Sub Materials Chemistry and Catalysis, Lojewski, Tobias, Elhanoty, Mohamed F., Le Guyader, Loïc, Grånäs, Oscar, Agarwal, Naman, Boeglin, Christine, Carley, Robert, Castoldi, Andrea, David, Christian, Deiter, Carsten, Döring, Florian, Engel, Robin Y., Erdinger, Florian, Fangohr, Hans, Fiorini, Carlo, Fischer, Peter, Gerasimova, Natalia, Gort, Rafael, deGroot, Frank, Hansen, Karsten, Hauf, Steffen, Hickin, David, Izquierdo, Manuel, Van Kuiken, Benjamin E., Kvashnin, Yaroslav, Lambert, Charles Henri, Lomidze, David, Maffessanti, Stefano, Mercadier, Laurent, Mercurio, Giuseppe, Miedema, Piter S., Ollefs, Katharina, Pace, Matthias, Porro, Matteo, Rezvani, Javad, Rösner, Benedikt, Rothenbach, Nico, Samartsev, Andrey, Scherz, Andreas, Schlappa, Justina, Stamm, Christian, Teichmann, Martin, Thunström, Patrik, Turcato, Monica, Yaroslavtsev, Alexander, Zhu, Jun, Beye, Martin, Wende, Heiko, Bovensiepen, Uwe, Eriksson, Olle, Eschenlohr, Andrea, Materials Chemistry and Catalysis, Sub Materials Chemistry and Catalysis, Lojewski, Tobias, Elhanoty, Mohamed F., Le Guyader, Loïc, Grånäs, Oscar, Agarwal, Naman, Boeglin, Christine, Carley, Robert, Castoldi, Andrea, David, Christian, Deiter, Carsten, Döring, Florian, Engel, Robin Y., Erdinger, Florian, Fangohr, Hans, Fiorini, Carlo, Fischer, Peter, Gerasimova, Natalia, Gort, Rafael, deGroot, Frank, Hansen, Karsten, Hauf, Steffen, Hickin, David, Izquierdo, Manuel, Van Kuiken, Benjamin E., Kvashnin, Yaroslav, Lambert, Charles Henri, Lomidze, David, Maffessanti, Stefano, Mercadier, Laurent, Mercurio, Giuseppe, Miedema, Piter S., Ollefs, Katharina, Pace, Matthias, Porro, Matteo, Rezvani, Javad, Rösner, Benedikt, Rothenbach, Nico, Samartsev, Andrey, Scherz, Andreas, Schlappa, Justina, Stamm, Christian, Teichmann, Martin, Thunström, Patrik, Turcato, Monica, Yaroslavtsev, Alexander, Zhu, Jun, Beye, Martin, Wende, Heiko, Bovensiepen, Uwe, Eriksson, Olle, and Eschenlohr, Andrea

Published
2023

35. Magnetism in AV3Sb5 (A = Cs, Rb, and K) : Origin and Consequences for the Strongly Correlated Phases

Author

Hasan, Nur, Bharati, Ritadip, Hellsvik, Johan, Delin, Anna, Pal, Samir Kumar, Bergman, Anders, Sharma, Shivalika, Di Marco, Igor, Pereiro, Manuel, Thunström, Patrik, Oppeneer, Peter M., Eriksson, Olle, Karmakar, Debjani, Hasan, Nur, Bharati, Ritadip, Hellsvik, Johan, Delin, Anna, Pal, Samir Kumar, Bergman, Anders, Sharma, Shivalika, Di Marco, Igor, Pereiro, Manuel, Thunström, Patrik, Oppeneer, Peter M., Eriksson, Olle, and Karmakar, Debjani

Abstract

The V-based kagome systems AV3Sb5 (A = Cs, Rb, and K) are unique by virtue of the intricate interplay of nontrivial electronic structure, topology, and intriguing fermiology, rendering them to be a playground of many mutually dependent exotic phases like charge-order and superconductivity. Despite numerous recent studies, the interconnection of magnetism and other complex collective phenomena in these systems has yet not arrived at any conclusion. Using first-principles tools, we demonstrate that their electronic structures, complex fermiologies and phonon dispersions are strongly influenced by the interplay of dynamic electron correlations, nontrivial spin-polarization and spin-orbit coupling. An investigation of the first-principles-derived intersite magnetic exchanges with the complementary analysis of q dependence of the electronic response functions and the electron-phonon coupling indicate that the system conforms as a frustrated spin cluster, where the occurrence of the charge-order phase is intimately related to the mechanism of electron-phonon coupling, rather than the Fermi-surface nesting.

Published
2023
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36. Reproducibility in density functional theory calculations of solids

Author

Lejaeghere, Kurt, Bihlmayer, Gustav, Björkman, Torbjörn, Blaha, Peter, Blügel, Stefan, Blum, Volker, Caliste, Damien, Castelli, Ivano E., Clark, Stewart J., Dal Corso, Andrea, de Gironcoli, Stefano, Deutsch, Thierry, Dewhurst, John Kay, Di Marco, Igor, Draxl, Claudia, Dułak, Marcin, Eriksson, Olle, Flores-Livas, José A., Garrity, Kevin F., Genovese, Luigi, Giannozzi, Paolo, Giantomassi, Matteo, Goedecker, Stefan, Gonze, Xavier, Grånäs, Oscar, Gross, E. K. U., Gulans, Andris, Gygi, François, Hamann, D. R., Hasnip, Phil J., Holzwarth, N. A. W., Iuşan, Diana, Jochym, Dominik B., Jollet, François, Jones, Daniel, Kresse, Georg, Koepernik, Klaus, Küçükbenli, Emine, Kvashnin, Yaroslav O., Locht, Inka L. M., Lubeck, Sven, Marsman, Martijn, Marzari, Nicola, Nitzsche, Ulrike, Nordström, Lars, Ozaki, Taisuke, Paulatto, Lorenzo, Pickard, Chris J., Poelmans, Ward, Probert, Matt I. J., Refson, Keith, Richter, Manuel, Rignanese, Gian-Marco, Saha, Santanu, Scheffler, Matthias, Schlipf, Martin, Schwarz, Karlheinz, Sharma, Sangeeta, Tavazza, Francesca, Thunström, Patrik, Tkatchenko, Alexandre, Torrent, Marc, Vanderbilt, David, van Setten, Michiel J., Van Speybroeck, Veronique, Wills, John M., Yates, Jonathan R., Zhang, Guo-Xu, and Cottenier, Stefaan

Published
2016

39. Complex Band Structures of Spintronics Materials

Author

Zahn, Peter, Thunström, Patrik, Johnson, Tomas, Barth, Timothy J., editor, Griebel, Michael, editor, Keyes, David E., editor, Nieminen, Risto M., editor, Roose, Dirk, editor, Schlick, Tamar, editor, Engquist, Björn, editor, Lötstedt, Per, editor, and Runborg, Olof, editor

Published
2009
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40. Ultrafast modification of the electronic structure of a correlated insulator

Author

Grånäs, Oscar, Vaskivskyi, I., Wang, X., Thunström, Patrik, Ghimire, S., Knut, Ronny, Söderström, Johan, Kjellsson, L., Turenne, Diego, Engel, R. Y., Beye, M., Lu, J., Higley, D. J., Reid, A. H., Schlotter, W., Coslovich, G., Hoffmann, M., Kolesov, G., Schissler-Langeheine, C., Styervoyedov, A., Tancogne-Dejean, N., Sentef, M. A., Reis, D. A., Rubio, A., Parkin, S. S. P., Karis, Olof, Rubensson, J. -e., Eriksson, Olle, Dürr, Hermann, Grånäs, Oscar, Vaskivskyi, I., Wang, X., Thunström, Patrik, Ghimire, S., Knut, Ronny, Söderström, Johan, Kjellsson, L., Turenne, Diego, Engel, R. Y., Beye, M., Lu, J., Higley, D. J., Reid, A. H., Schlotter, W., Coslovich, G., Hoffmann, M., Kolesov, G., Schissler-Langeheine, C., Styervoyedov, A., Tancogne-Dejean, N., Sentef, M. A., Reis, D. A., Rubio, A., Parkin, S. S. P., Karis, Olof, Rubensson, J. -e., Eriksson, Olle, and Dürr, Hermann

Abstract

A nontrivial balance between Coulomb repulsion and kinematic effects determines the electronic structure of correlated electron materials. The use of electromagnetic fields strong enough to rival these native microscopic interactions allows us to study the electronic response as well as the time scales and energies involved in using quantum effects for possible applications. We use element-specific transient x-ray absorption spectroscopy and high-harmonic generation to measure the response to ultrashort off-resonant optical fields in the prototypical correlated electron insulator NiO. Surprisingly, fields of up to 0.22 V/angstrom lead to no detectable changes in the correlated Ni 3d orbitals contrary to previous predictions. A transient directional charge transfer is uncovered, a behavior that is captured by first-principles theory. Our results highlight the importance of retardation effects in electronic screening and pinpoints a key challenge in functionalizing correlated materials for ultrafast device operation.

Published
2022
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41. Dynamical correlations in single-layer CrI3

Author

Kvashnin, Yaroslav O., Rudenko, Alexander N., Thunström, Patrik, Rösner, Malte, Katsnelson, Mikhail I., Kvashnin, Yaroslav O., Rudenko, Alexander N., Thunström, Patrik, Rösner, Malte, and Katsnelson, Mikhail I.

Abstract

Chromium triiodide is an intrinsically magnetic van der Waals material down to the single-layer limit. Here, we provide a first-principles description of finite-temperature magnetic and spectral properties of monolayer (ML) CrI3 based on fully charge self-consistent density functional theory (DFT) combined with dynamical mean-field theory, revealing a formation of local moments on Cr from strong local Coulomb interactions. We show that the presence of local dynamical correlations leads to a modification of the electronic structure of ferromagnetically ordered CrI3. In contrast to conventional DFT+U calculations, we find that the top of the valence band in ML CrI3 demonstrates essentially different orbital character for minority and majority spin states, which is closer to the standard DFT results. This leads to a strong spin polarization of the optical conductivity upon hole doping, which could be verified experimentally.

Published
2022
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42. Re‐Dichalcogenides : Resolving Conflicts of Their Structure–Property Relationship

Author

Hasan, Md. Nur, Sorgenfrei, Felix, Pan, Nivedita, Phuyal, Dibya, Abdel‐Hafiez, Mahmoud, Pal, Samir Kumar, Delin, Anna, Thunström, Patrik, Sarma, D. D., Eriksson, Olle, Karmakar, Debjani, Hasan, Md. Nur, Sorgenfrei, Felix, Pan, Nivedita, Phuyal, Dibya, Abdel‐Hafiez, Mahmoud, Pal, Samir Kumar, Delin, Anna, Thunström, Patrik, Sarma, D. D., Eriksson, Olle, and Karmakar, Debjani

Abstract

QC 20230613

Published
2022
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46. Electronic Structure of Bi Nanolines on Inas(100)

Author

Nafday, Dhani, primary, Richter, Christine, additional, Heckmann, Olivier, additional, Wang, Weimin, additional, Mariot, Jean-Michel, additional, Djukic, Uros, additional, Vobornik, Ivana, additional, Lefevre, Patrick, additional, Taleb-Ibrahimi, Amina, additional, Bertran, François, additional, Rault, Julien, additional, Nicolaï, Laurent, additional, Ong, Chin Shen, additional, Thunström, Patrik, additional, Hricovini, Karol, additional, Minar, Jan, additional, and Di Marco, Igor, additional

Published
2022
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47. DFT METHODS: Reproducibility in density functional theory calculations of solids

Author

Lejaeghere, Kurt, Bihlmayer, Gustav, Björkman, Torbjörn, Blaha, Peter, Blügel, Stefan, Blum, Volker, Caliste, Damien, Castelli, Ivano E., Clark, Stewart J., Dal Corso, Andrea, de Gironcoli, Stefano, Deutsch, Thierry, Dewhurst, John Kay, Di Marco, Igor, Draxl, Claudia, Dułak, Marcin, Eriksson, Olle, Flores-Livas, José A., Garrity, Kevin F., Genovese, Luigi, Giannozzi, Paolo, Giantomassi, Matteo, Goedecker, Stefan, Gonze, Xavier, Grånäs, Oscar, Gross, E. K.U., Gulans, Andris, Gygi, François, Hamann, D. R., Hasnip, Phil J., Holzwarth, N. A.W., Iuşan, Diana, Jochym, Dominik B., Jollet, François, Jones, Daniel, Kresse, Georg, Koepernik, Klaus, Küçükbenli, Emine, Kvashnin, Yaroslav O., Locht, Inka L.M., Lubeck, Sven, Marsman, Martijn, Marzari, Nicola, Nitzsche, Ulrike, Nordström, Lars, Ozaki, Taisuke, Paulatto, Lorenzo, Pickard, Chris J., Poelmans, Ward, Probert, Matt I.J., Refson, Keith, Richter, Manuel, Rignanese, Gian-Marco, Saha, Santanu, Scheffler, Matthias, Schlipf, Martin, Schwarz, Karlheinz, Sharma, Sangeeta, Tavazza, Francesca, Thunström, Patrik, Tkatchenko, Alexandre, Torrent, Marc, Vanderbilt, David, van Setten, Michiel J., Van Speybroeck, Veronique, Wills, John M., Yates, Jonathan R., Zhang, Guo-Xu, and Cottenier, Stefaan

Published
2016
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48. Photoelectron dispersion in metallic and insulating VO2 thin films

Author

Jonsson, Viktor, primary, Piazza, Luca, additional, Månsson, Martin, additional, Weissenrieder, Jonas, additional, Tjernberg, Oscar, additional, Khartsev, Sergiy, additional, Sassa, Yasmine, additional, Mazzone, Daniel G., additional, Gauthier, Nicolas, additional, Muntwiler, Matthias, additional, Ong, Chin Shen, additional, Iuşan, Diana, additional, Thunström, Patrik, additional, and Eriksson, Olle, additional

Published
2021
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