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Hauptverfasser: Fraboulet, Kilian, Al-Eryani, Aiman, Heinzelmann, Sarah, Kauch, Anna, Andergassen, Sabine
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2512.11190
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author Fraboulet, Kilian
Al-Eryani, Aiman
Heinzelmann, Sarah
Kauch, Anna
Andergassen, Sabine
author_facet Fraboulet, Kilian
Al-Eryani, Aiman
Heinzelmann, Sarah
Kauch, Anna
Andergassen, Sabine
contents The functional renormalization group (fRG) is an established tool in the treatment of correlated electron systems, notably for the description of competing instabilities. In recent years, methodological advancements led to the multiloop extension of the fRG, which systematically includes loop corrections beyond the conventional one-loop truncation and yields a quantitatively accurate description of two-dimensional lattice systems. At the same time, the single-boson exchange (SBE) decomposition of the two-particle vertex has been shown to offer both computational and interpretative advantages paving the way to more affordable approximation schemes. We here apply their combination coined as multiloop SBE fRG to the two-dimensional Hubbard model at weak coupling. After providing a detailed account of the underlying formalism in physical channels, we analyze the results for the frequency- and momentum-dependent vertex functions. We find that the SBE approximation, i.e., without calculating explicitly multi-boson exchange contributions, accurately reproduces the parquet approximation at loop convergence. The presented algorithmic improvement opens the route for the treatment of more challenging parameter regimes and more realistic models.
format Preprint
id arxiv_https___arxiv_org_abs_2512_11190
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Multiloop functional renormalization group from single bosons
Fraboulet, Kilian
Al-Eryani, Aiman
Heinzelmann, Sarah
Kauch, Anna
Andergassen, Sabine
Strongly Correlated Electrons
The functional renormalization group (fRG) is an established tool in the treatment of correlated electron systems, notably for the description of competing instabilities. In recent years, methodological advancements led to the multiloop extension of the fRG, which systematically includes loop corrections beyond the conventional one-loop truncation and yields a quantitatively accurate description of two-dimensional lattice systems. At the same time, the single-boson exchange (SBE) decomposition of the two-particle vertex has been shown to offer both computational and interpretative advantages paving the way to more affordable approximation schemes. We here apply their combination coined as multiloop SBE fRG to the two-dimensional Hubbard model at weak coupling. After providing a detailed account of the underlying formalism in physical channels, we analyze the results for the frequency- and momentum-dependent vertex functions. We find that the SBE approximation, i.e., without calculating explicitly multi-boson exchange contributions, accurately reproduces the parquet approximation at loop convergence. The presented algorithmic improvement opens the route for the treatment of more challenging parameter regimes and more realistic models.
title Multiloop functional renormalization group from single bosons
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2512.11190