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Real-space renormalization yields finite correlations

Quantum Physics 2010-07-16 v2 Strongly Correlated Electrons
Authors: Thomas Barthel , Martin Kliesch , Jens Eisert
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Abstract

Real-space renormalization approaches for quantum lattice systems generate certain hierarchical classes of states that are subsumed by the multi-scale entanglement renormalization ansatz (MERA). It is shown that, with the exception of one spatial dimension, MERA states are actually finitely correlated states, i.e., projected entangled pair states (PEPS) with a bond dimension independent of the system size. Hence, real-space renormalization generates states which can be encoded with local effective degrees of freedom, and MERA states form an efficiently contractible class of PEPS that obey the area law for the entanglement entropy. It is shown further that there exist other efficiently contractible schemes violating the area law.

Keywords

quantum state space quantum entanglement renormalization in quantum field theory

Cite

@article{arxiv.1003.2319,
  title  = {Real-space renormalization yields finite correlations},
  author = {Thomas Barthel and Martin Kliesch and Jens Eisert},
  journal= {arXiv preprint arXiv:1003.2319},
  year   = {2010}
}

Comments

7 pages, 6 figures; final version, featuring an addendum to the published article

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