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Extended Recursion in Operator Space (EROS), a new impurity solver for the single impurity Anderson model

Strongly Correlated Electrons 2008-10-21 v1 Materials Science
Authors: Jean-Pierre Julien , R. C. Albers
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Abstract

We have developed a new efficient and accurate impurity solver for the single impurity Anderson model (SIAM), which is based on a non-perturbative recursion technique in a space of operators and involves expanding the self-energy as a continued fraction. The method has no special occupation number or temperature restrictions; the only approximation is the number of levels of the continued fraction retained in the expansion. We also show how this approach can be used as a new approach to Dynamical Mean Field Theory (DMTF) and illustrate this with the Hubbard model. The three lowest orders of recursion give the Hartree-Fock, Hubbard I, and Hubbard III approximations. A higher level of recursion is able to reproduce the expected 3-peak structure in the spectral function and Fermi liquid behavior.

Keywords

computational optimization computational physics proper orthogonal decomposition

Cite

@article{arxiv.0810.3302,
  title  = {Extended Recursion in Operator Space (EROS), a new impurity solver for the single impurity Anderson model},
  author = {Jean-Pierre Julien and R. C. Albers},
  journal= {arXiv preprint arXiv:0810.3302},
  year   = {2008}
}

Comments

4 pages, 3 figures submitted to PRL

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