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Auteurs principaux: Yue, Changming, Werner, Philipp
Format: Preprint
Publié: 2023
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Accès en ligne:https://arxiv.org/abs/2303.16888
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author Yue, Changming
Werner, Philipp
author_facet Yue, Changming
Werner, Philipp
contents The anomalous self-energy plays an important role in the analysis of superconducting states. Its spectral weight provides information on the pairing glue of superconductors, but it can change in sign. In many numerical approaches, for example Monte Carlo methods based on the Nambu formalism, the anomalous self-energy is obtained on the Matsubara axis, and nonpositive spectral weight cannot be directly obtained using the standard maximum entropy analytic continuation method. Here, we introduce an auxiliary self-energy corresponding to a linear combination of the normal and anomalous self-energies. We analytically and numerically prove that this auxiliary function has non-negative spectral weight independent of the pairing symmetry, which allows to compute the sign-changing spectrum of the original self-energy using the maximum entropy approach. As an application, we calculate the momentum-resolved spectral function of K$_3$C$_{60}$ in the superconducting state.
format Preprint
id arxiv_https___arxiv_org_abs_2303_16888
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Maximum entropy analytic continuation of anomalous self-energies
Yue, Changming
Werner, Philipp
Superconductivity
Strongly Correlated Electrons
The anomalous self-energy plays an important role in the analysis of superconducting states. Its spectral weight provides information on the pairing glue of superconductors, but it can change in sign. In many numerical approaches, for example Monte Carlo methods based on the Nambu formalism, the anomalous self-energy is obtained on the Matsubara axis, and nonpositive spectral weight cannot be directly obtained using the standard maximum entropy analytic continuation method. Here, we introduce an auxiliary self-energy corresponding to a linear combination of the normal and anomalous self-energies. We analytically and numerically prove that this auxiliary function has non-negative spectral weight independent of the pairing symmetry, which allows to compute the sign-changing spectrum of the original self-energy using the maximum entropy approach. As an application, we calculate the momentum-resolved spectral function of K$_3$C$_{60}$ in the superconducting state.
title Maximum entropy analytic continuation of anomalous self-energies
topic Superconductivity
Strongly Correlated Electrons
url https://arxiv.org/abs/2303.16888