Magnetic Compton profiles of Ni beyond the one-particle picture: Numerically exact and perturbative solvers of dynamical mean-field theory

We calculated the magnetic Compton profiles (MCPs) of Ni using density functional theory supplemented by electronic correlations treated within dynamical mean-field theory (DMFT). We present comparisons between the theoretical and experimental MCPs. The theoretical MCPs were calculated using the Kor...

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Veröffentlicht in:	Physical review. B 2021-03, Vol.103 (11), p.1, Article 115144
Hauptverfasser:	James, A. D. N., Sekania, M., Dugdale, S. B., Chioncel, L.
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Sprache:	eng
Schlagworte:	Density functional theory Magnetic moments Mathematical analysis Mean field theory Solvers
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creator	James, A. D. N. Sekania, M. Dugdale, S. B. Chioncel, L.
description	We calculated the magnetic Compton profiles (MCPs) of Ni using density functional theory supplemented by electronic correlations treated within dynamical mean-field theory (DMFT). We present comparisons between the theoretical and experimental MCPs. The theoretical MCPs were calculated using the Korringa-Kohn-Rostoker method with the perturbative spin-polarized T-matrix fluctuation exchange approximation DMFT solver, as well as with the full potential linear augmented plane-wave method with the numerically exact continuous-time quantum Monte Carlo DMFT solver. We show that the total magnetic moment decreases with the intra-atomic Coulomb repulsion U, which is also reflected in the corresponding MCPs. The total magnetic moment obtained in experimental measurements can be reproduced by intermediate values of U. The spectral function reveals that the minority X2 Fermi-surface pocket shrinks and gets shallower with respect to the density functional theory calculations.
doi_str_mv	10.1103/PhysRevB.103.115144
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D. N. ; Sekania, M. ; Dugdale, S. B. ; Chioncel, L.</creator><creatorcontrib>James, A. D. N. ; Sekania, M. ; Dugdale, S. B. ; Chioncel, L.</creatorcontrib><description>We calculated the magnetic Compton profiles (MCPs) of Ni using density functional theory supplemented by electronic correlations treated within dynamical mean-field theory (DMFT). We present comparisons between the theoretical and experimental MCPs. The theoretical MCPs were calculated using the Korringa-Kohn-Rostoker method with the perturbative spin-polarized T-matrix fluctuation exchange approximation DMFT solver, as well as with the full potential linear augmented plane-wave method with the numerically exact continuous-time quantum Monte Carlo DMFT solver. We show that the total magnetic moment decreases with the intra-atomic Coulomb repulsion U, which is also reflected in the corresponding MCPs. The total magnetic moment obtained in experimental measurements can be reproduced by intermediate values of U. 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title	Magnetic Compton profiles of Ni beyond the one-particle picture: Numerically exact and perturbative solvers of dynamical mean-field theory
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