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Main Authors: ALF Collaboration, Assaad, F. F., Bercx, M., Goth, F., Götz, A., Hofmann, J. S., Huffman, E., Liu, Z., Toldin, F. Parisen, Portela, J. S. E., Schwab, J.
Format: Preprint
Published: 2020
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Online Access:https://arxiv.org/abs/2012.11914
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author ALF Collaboration
Assaad, F. F.
Bercx, M.
Goth, F.
Götz, A.
Hofmann, J. S.
Huffman, E.
Liu, Z.
Toldin, F. Parisen
Portela, J. S. E.
Schwab, J.
author_facet ALF Collaboration
Assaad, F. F.
Bercx, M.
Goth, F.
Götz, A.
Hofmann, J. S.
Huffman, E.
Liu, Z.
Toldin, F. Parisen
Portela, J. S. E.
Schwab, J.
contents The Algorithms for Lattice Fermions package provides a general code for the finite-temperature and projective auxiliary-field quantum Monte Carlo algorithm. The code is engineered to be able to simulate any model that can be written in terms of sums of single-body operators, of squares of single-body operators and single-body operators coupled to a bosonic field with given dynamics. The package includes five pre-defined model classes: SU(N) Kondo, SU(N) Hubbard, SU(N) t-V and SU(N) models with long range Coulomb repulsion on honeycomb, square and N-leg lattices, as well as $Z_2$ unconstrained lattice gauge theories coupled to fermionic and $Z_2$ matter. An implementation of the stochastic Maximum Entropy method is also provided. One can download the code from our Git instance at https://git.physik.uni-wuerzburg.de/ALF/ALF/-/tree/ALF-2.4 and sign in to file issues.
format Preprint
id arxiv_https___arxiv_org_abs_2012_11914
institution arXiv
publishDate 2020
record_format arxiv
spellingShingle The ALF (Algorithms for Lattice Fermions) project release 2.4. Documentation for the auxiliary-field quantum Monte Carlo code
ALF Collaboration
Assaad, F. F.
Bercx, M.
Goth, F.
Götz, A.
Hofmann, J. S.
Huffman, E.
Liu, Z.
Toldin, F. Parisen
Portela, J. S. E.
Schwab, J.
Strongly Correlated Electrons
High Energy Physics - Lattice
Computational Physics
Quantum Physics
The Algorithms for Lattice Fermions package provides a general code for the finite-temperature and projective auxiliary-field quantum Monte Carlo algorithm. The code is engineered to be able to simulate any model that can be written in terms of sums of single-body operators, of squares of single-body operators and single-body operators coupled to a bosonic field with given dynamics. The package includes five pre-defined model classes: SU(N) Kondo, SU(N) Hubbard, SU(N) t-V and SU(N) models with long range Coulomb repulsion on honeycomb, square and N-leg lattices, as well as $Z_2$ unconstrained lattice gauge theories coupled to fermionic and $Z_2$ matter. An implementation of the stochastic Maximum Entropy method is also provided. One can download the code from our Git instance at https://git.physik.uni-wuerzburg.de/ALF/ALF/-/tree/ALF-2.4 and sign in to file issues.
title The ALF (Algorithms for Lattice Fermions) project release 2.4. Documentation for the auxiliary-field quantum Monte Carlo code
topic Strongly Correlated Electrons
High Energy Physics - Lattice
Computational Physics
Quantum Physics
url https://arxiv.org/abs/2012.11914