Quantum Many-Body Effects in X-Ray Spectra Efficiently Computed using a Basic Graph Algorithm
The growing interest in using x-ray spectroscopy for refined materials characterization calls for accurate electronic-structure theory to interpret x-ray near-edge fine structure. In this work, we propose an efficient and unified framework to describe all the many-electron processes in a Fermi liqui...
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| Published in | arXiv.org |
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| Main Authors | , |
| Format | Paper Journal Article |
| Language | English |
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Ithaca
Cornell University Library, arXiv.org
12.01.2018
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| Online Access | Get full text |
| ISSN | 2331-8422 |
| DOI | 10.48550/arxiv.1801.04073 |
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| Abstract | The growing interest in using x-ray spectroscopy for refined materials characterization calls for accurate electronic-structure theory to interpret x-ray near-edge fine structure. In this work, we propose an efficient and unified framework to describe all the many-electron processes in a Fermi liquid after a sudden perturbation (such as a core hole). This problem has been visited by the Mahan-Noziéres-De Dominicis (MND) theory, but it is intractable to implement various Feynman diagrams within first-principles calculations. Here, we adopt a non-diagrammatic approach and treat all the many-electron processes in the MND theory on an equal footing. Starting from a recently introduced determinant formalism [Phys. Rev. Lett. 118, 096402 (2017)], we exploit the linear-dependence of determinants describing different final states involved in the spectral calculations. An elementary graph algorithm, breadth-first search, can be used to quickly identify the important determinants for shaping the spectrum, which avoids the need to evaluate a great number of vanishingly small terms. This search algorithm is performed over the tree-structure of the many-body expansion, which mimics a path-finding process. We demonstrate that the determinantal approach is computationally inexpensive even for obtaining x-ray spectra of extended systems. Using Kohn-Sham orbitals from two self-consistent fields (ground and core-excited state) as input for constructing the determinants, the calculated x-ray spectra for a number of transition metal oxides are in good agreement with experiments. Many-electron aspects beyond the Bethe-Salpeter equation, as captured by this approach, are also discussed, such as shakeup excitations and many-body wave function overlap considered in Anderson's orthogonality catastrophe. |
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| AbstractList | Phys. Rev. B 97, 205127 (2018) The growing interest in using x-ray spectroscopy for refined materials
characterization calls for accurate electronic-structure theory to interpret
x-ray near-edge fine structure. In this work, we propose an efficient and
unified framework to describe all the many-electron processes in a Fermi liquid
after a sudden perturbation (such as a core hole). This problem has been
visited by the Mahan-Noziéres-De Dominicis (MND) theory, but it is
intractable to implement various Feynman diagrams within first-principles
calculations. Here, we adopt a non-diagrammatic approach and treat all the
many-electron processes in the MND theory on an equal footing. Starting from a
recently introduced determinant formalism [Phys. Rev. Lett. 118, 096402
(2017)], we exploit the linear-dependence of determinants describing different
final states involved in the spectral calculations. An elementary graph
algorithm, breadth-first search, can be used to quickly identify the important
determinants for shaping the spectrum, which avoids the need to evaluate a
great number of vanishingly small terms. This search algorithm is performed
over the tree-structure of the many-body expansion, which mimics a path-finding
process. We demonstrate that the determinantal approach is computationally
inexpensive even for obtaining x-ray spectra of extended systems. Using
Kohn-Sham orbitals from two self-consistent fields (ground and core-excited
state) as input for constructing the determinants, the calculated x-ray spectra
for a number of transition metal oxides are in good agreement with experiments.
Many-electron aspects beyond the Bethe-Salpeter equation, as captured by this
approach, are also discussed, such as shakeup excitations and many-body wave
function overlap considered in Anderson's orthogonality catastrophe. The growing interest in using x-ray spectroscopy for refined materials characterization calls for accurate electronic-structure theory to interpret x-ray near-edge fine structure. In this work, we propose an efficient and unified framework to describe all the many-electron processes in a Fermi liquid after a sudden perturbation (such as a core hole). This problem has been visited by the Mahan-Noziéres-De Dominicis (MND) theory, but it is intractable to implement various Feynman diagrams within first-principles calculations. Here, we adopt a non-diagrammatic approach and treat all the many-electron processes in the MND theory on an equal footing. Starting from a recently introduced determinant formalism [Phys. Rev. Lett. 118, 096402 (2017)], we exploit the linear-dependence of determinants describing different final states involved in the spectral calculations. An elementary graph algorithm, breadth-first search, can be used to quickly identify the important determinants for shaping the spectrum, which avoids the need to evaluate a great number of vanishingly small terms. This search algorithm is performed over the tree-structure of the many-body expansion, which mimics a path-finding process. We demonstrate that the determinantal approach is computationally inexpensive even for obtaining x-ray spectra of extended systems. Using Kohn-Sham orbitals from two self-consistent fields (ground and core-excited state) as input for constructing the determinants, the calculated x-ray spectra for a number of transition metal oxides are in good agreement with experiments. Many-electron aspects beyond the Bethe-Salpeter equation, as captured by this approach, are also discussed, such as shakeup excitations and many-body wave function overlap considered in Anderson's orthogonality catastrophe. |
| Author | Prendergast, David Liang, Yufeng |
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| BackLink | https://doi.org/10.48550/arXiv.1801.04073$$DView paper in arXiv https://doi.org/10.1103/PhysRevB.97.205127$$DView published paper (Access to full text may be restricted) |
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| Snippet | The growing interest in using x-ray spectroscopy for refined materials characterization calls for accurate electronic-structure theory to interpret x-ray... Phys. Rev. B 97, 205127 (2018) The growing interest in using x-ray spectroscopy for refined materials characterization calls for accurate electronic-structure... |
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| SubjectTerms | Algorithms Bethe-Salpeter equation Dependence Determinants Electronic structure Electrons Fermi liquids Feynman diagrams Fine structure First principles Mathematical analysis Orthogonality Physics - Materials Science Search algorithms Self consistent fields Spectrum analysis Transition metal oxides Transition metals X ray spectra |
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| Title | Quantum Many-Body Effects in X-Ray Spectra Efficiently Computed using a Basic Graph Algorithm |
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