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Unitary circuits for strongly correlated fermions

Quantum Physics 2010-06-01 v3 Strongly Correlated Electrons
Authors: C. Pineda , T. Barthel , J. Eisert
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Abstract

We introduce a scheme for efficiently describing pure states of strongly correlated fermions in higher dimensions using unitary circuits featuring a causal cone. A local way of computing local expectation values is presented. We formulate a dynamical reordering scheme, corresponding to time-adaptive Jordan-Wigner transformation, that avoids nonlocal string operators. Primitives of such a reordering scheme are highlighted. Fermionic unitary circuits can be contracted with the same complexity as in the spin case. The scheme gives rise to a variational description of fermionic models not suffering from a sign problem. We present numerical examples on 9×99\times 9 and 6×66\times 6 fermionic lattice model to show the functioning of the approach.

Keywords

fermionic models spin systems fermion field theory and gross-neveu model

Cite

@article{arxiv.0905.0669,
  title  = {Unitary circuits for strongly correlated fermions},
  author = {C. Pineda and T. Barthel and J. Eisert},
  journal= {arXiv preprint arXiv:0905.0669},
  year   = {2010}
}

Comments

5 pages, 3 figures, numerical example added, small typographic errors corrected

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