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Bibliographic Details
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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Table of 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.