Matrix product states represent ground states faithfully

Verstraete, F.; Cirac, J. I.

doi:10.1103/PhysRevB.73.094423

Published March 1, 2006 | Version public

Journal Article Open

Matrix product states represent ground states faithfully

We quantify how well matrix product states approximate exact ground states of one-dimensional quantum spin systems as a function of the number of spins and the entropy of blocks of spins. We also investigate the convex set of local reduced density operators of translational invariant systems. The results give a theoretical justification for the high accuracy of renormalization group algorithms and justifies their use even in the case of critical systems.

Additional Information

©2006 The American Physical Society (Received 1 June 2005; published 20 March 2006) We thank O. Syljuåsen for sending us his Monte Carlo data about the 2D XXZ model, G. Vidal for interesting discussions, and T. Osborne for pointing out Ref. 27. Work supported by European projects, der Bayerischen Staatsregierung and the Gordon and Betty Moore Foundation.

Files

VERprb06.pdf

Files (224.2 kB)

Name	Size	Download all
VERprb06.pdf md5:fc7528967f96cc741df0f8e0057afa7d	224.2 kB	Preview Download

Additional details

Eprint ID: 2716
Resolver ID: CaltechAUTHORS:VERprb06

Created: 2006-04-23

Created from EPrint's datestamp field
Updated: 2021-11-08

Created from EPrint's last_modified field

	All versions	This version
Views	10	10
Downloads	24	24
Data volume	5.4 MB	5.4 MB

Matrix product states represent ground states faithfully

Additional Information

Files

VERprb06.pdf

Files (224.2 kB)

Additional details

Identifiers

Dates

Matrix product states represent ground states faithfully

Creators

Abstract

Additional Information

Files

VERprb06.pdf

Files (224.2 kB)

Additional details

Identifiers

Dates