Matrix Product State and mean field solutions for one-dimensional
  systems can be found efficiently

A. Y. Kitaev; D. Perez-Garcia; G. Pisier; J. Ignacio Cirac; Norbert Schuch; P. M. Chaikin; S. Bravyi

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Matrix Product State and mean field solutions for one-dimensional systems can be found efficiently

Authors: A. Y. Kitaev
D. Perez-Garcia
G. Pisier
J. Ignacio Cirac
Norbert Schuch
P. M. Chaikin
S. Bravyi
Publication date: 1 January 2010
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We consider the problem of approximating ground states of one-dimensional quantum systems within the two most common variational ansatzes, namely the mean field ansatz and Matrix Product States. We show that both for mean field and for Matrix Product States of fixed bond dimension, the optimal solutions can be found in a way which is provably efficient (i.e., scales polynomially). This implies that the corresponding variational methods can be in principle recast in a way which scales provably polynomially. Moreover, our findings imply that ground states of one-dimensional commuting Hamiltonians can be found efficiently.Comment: 5 pages; v2: accepted version, Journal-ref adde