LIBAMI: Implementation of algorithmic Matsubara integration

We present libami, a lightweight implementation of algorithmic Matsubara integration (AMI) written in C++. AMI is a tool for analytically resolving the sequence of nested Matsubara integrals that arise in virtually all Feynman perturbative expansions. Program Title: libami CPC Library link to progra...

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Published inComputer physics communications Vol. 280; p. 108469
Main Authors Elazab, Hossam, McNiven, B.D.E., LeBlanc, J.P.F.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2022
Subjects
Algorithmic Matsubara integration
Diagrammatic Monte Carlo
Feynman diagrams
Feynman diagrams
Diagrammatic Monte Carlo
Algorithmic Matsubara integration
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Abstract We present libami, a lightweight implementation of algorithmic Matsubara integration (AMI) written in C++. AMI is a tool for analytically resolving the sequence of nested Matsubara integrals that arise in virtually all Feynman perturbative expansions. Program Title: libami CPC Library link to program files:https://doi.org/10.17632/zkwwmbnm6m.1 Developer's repository link:https://github.com/jpfleblanc/libami Licensing provisions: GPLv3 Programming language:C++ Nature of problem: Perturbative expansions in condensed matter systems are formulated on the imaginary frequency/time axis and are often represented as a series of Feynman diagrams, which involve a sequence of nested integrals/summations over internal Matsubara indices as well as other internal variables. Solution method:libami provides a minimal framework to symbolically generate and store the analytic solution to the temporal Matsubara sums through repeated application of multipole residue theorems. The solution can be applied to any frequency-independent interaction expansion. Once generated, the analytic solution is valid in any dimensionality with any dispersion at arbitrary temperature. Additional comments including restrictions and unusual features: Requires C++11 standard. Optional compilation with boost-multiprecision library. [1]Amir Taheridehkordi, S.H. Curnoe, J.P.F. LeBlanc, Algorithmic Matsubara integration for Hubbard-like models, Phys. Rev. B 99 (2019) 035120.
AbstractList We present libami, a lightweight implementation of algorithmic Matsubara integration (AMI) written in C++. AMI is a tool for analytically resolving the sequence of nested Matsubara integrals that arise in virtually all Feynman perturbative expansions. Program Title: libami CPC Library link to program files:https://doi.org/10.17632/zkwwmbnm6m.1 Developer's repository link:https://github.com/jpfleblanc/libami Licensing provisions: GPLv3 Programming language:C++ Nature of problem: Perturbative expansions in condensed matter systems are formulated on the imaginary frequency/time axis and are often represented as a series of Feynman diagrams, which involve a sequence of nested integrals/summations over internal Matsubara indices as well as other internal variables. Solution method:libami provides a minimal framework to symbolically generate and store the analytic solution to the temporal Matsubara sums through repeated application of multipole residue theorems. The solution can be applied to any frequency-independent interaction expansion. Once generated, the analytic solution is valid in any dimensionality with any dispersion at arbitrary temperature. Additional comments including restrictions and unusual features: Requires C++11 standard. Optional compilation with boost-multiprecision library. [1]Amir Taheridehkordi, S.H. Curnoe, J.P.F. LeBlanc, Algorithmic Matsubara integration for Hubbard-like models, Phys. Rev. B 99 (2019) 035120.
ArticleNumber 108469
Author LeBlanc, J.P.F.
McNiven, B.D.E.
Elazab, Hossam
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CitedBy_id crossref_primary_10_1103_PhysRevB_108_165149
crossref_primary_10_1103_PhysRevB_109_125143
crossref_primary_10_1103_PhysRevB_107_115151
crossref_primary_10_1103_PhysRevB_107_195138
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Keywords Feynman diagrams
Diagrammatic Monte Carlo
Algorithmic Matsubara integration
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Snippet We present libami, a lightweight implementation of algorithmic Matsubara integration (AMI) written in C++. AMI is a tool for analytically resolving the...
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SubjectTerms Algorithmic Matsubara integration
Diagrammatic Monte Carlo
Feynman diagrams
Title LIBAMI: Implementation of algorithmic Matsubara integration
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