Journal article

Spin-resolved entanglement spectroscopy of critical spin chains and Luttinger liquids

N Laflorencie, S Rachel

Journal of Statistical Mechanics Theory and Experiment | IOP PUBLISHING LTD | Published : 2014

Abstract

Quantum critical chains are well-described and understood by virtue of conformal field theory. Still, the meaning of the real space entanglement spectrum - the eigenvalues of the reduced density matrix - of such systems remains elusive in general, even when there is an additional quantum number available such as the spin or particle number. In this paper, we explore in detail the properties and structure of the reduced density matrix of critical XXZ spin-1/2 chains. We investigate the quantum/thermal correspondence between the reduced density matrix of a T = 0 pure quantum state and the thermal density matrix of an effective entanglement Hamiltonian. Using large scale DMRG and QMC simulation..

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University of Melbourne Researchers

Grants

Awarded by French ANR


Awarded by DFG


Awarded by Helmholtz association


Funding Acknowledgements

The authors wish to thank P Calabrese, F Pollmann, and J Dubail for interesting conversations related to this work and P Schmitteckert for supporting us with the data for chains with L = 2000. NL is supported by the French ANR program ANR-11-IS04-005-01. SR is supported by the DFG through FOR 960 and by the Helmholtz association through VI-521.