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Main Authors: Gu, Lei, Luo, Jia, Wu, Ruqian, Zhao, Guoping
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2504.02274
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author Gu, Lei
Luo, Jia
Wu, Ruqian
Zhao, Guoping
author_facet Gu, Lei
Luo, Jia
Wu, Ruqian
Zhao, Guoping
contents We extend the continuous-time hybridization expansion solver to a general form, where the hybridization function and retarded interaction are treated on equal footing. Correlation functions can now be directly obtained via functional derivatives with respect to the bosonic propagators, similar to the measurement of Green's functions. We devise a combinatorial scheme of measuring the correlation function, whose efficiency partially emulates that of the Green's function measurement. The algorithm and numerical methods are validated through application to an impurity model involving both electron-phonon coupling and exchange interactions, a case where the previous hybridization expansion algorithm is not applicable. Our improvement of the hybridization expansion solver promotes its applicability in studies of electron-phonon coupling, the extended dynamical mean field theory, and the dual boson method.
format Preprint
id arxiv_https___arxiv_org_abs_2504_02274
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Extended Hybridization Expansion Solver for Impurity Models with Retarded Interactions
Gu, Lei
Luo, Jia
Wu, Ruqian
Zhao, Guoping
Strongly Correlated Electrons
Materials Science
We extend the continuous-time hybridization expansion solver to a general form, where the hybridization function and retarded interaction are treated on equal footing. Correlation functions can now be directly obtained via functional derivatives with respect to the bosonic propagators, similar to the measurement of Green's functions. We devise a combinatorial scheme of measuring the correlation function, whose efficiency partially emulates that of the Green's function measurement. The algorithm and numerical methods are validated through application to an impurity model involving both electron-phonon coupling and exchange interactions, a case where the previous hybridization expansion algorithm is not applicable. Our improvement of the hybridization expansion solver promotes its applicability in studies of electron-phonon coupling, the extended dynamical mean field theory, and the dual boson method.
title Extended Hybridization Expansion Solver for Impurity Models with Retarded Interactions
topic Strongly Correlated Electrons
Materials Science
url https://arxiv.org/abs/2504.02274