Correlation density matrices for 1- dimensional quantum chains based on the density matrix renormalization group

Details Correlation density matrices for 1- dimensional quantum chains based on the density matrix renormalization group Correlation density matrices for 1- dimensional quantum chains based on the density matrix renormalization group

2009-10-05

arxiv.org/abs/0910.0753v1

Physics

Condensed Matter

Strongly Correlated Electrons

50 pages, 34 figures, to be published in New Journal of Physics

Scientific paper

A useful concept for finding numerically the dominant correlations of a given ground state in an interacting quantum lattice system in an unbiased way is the correlation density matrix. For two disjoint, separated clusters, it is defined to be the density matrix of their union minus the direct product of their individual density matrices and contains all correlations between the two clusters. We show how to extract from the correlation density matrix a general overview of the correlations as well as detailed information on the operators carrying long-range correlations and the spatial dependence of their correlation functions. To determine the correlation density matrix, we calculate the ground state for a class of spinless extended Hubbard models using the density matrix renormalization group. This numerical method is based on matrix product states for which the correlation density matrix can be obtained straightforwardly. In an appendix, we give a detailed tutorial introduction to our variational matrix product state approach for ground state calculations for 1- dimensional quantum chain models. We show in detail how matrix product states overcome the problem of large Hilbert space dimensions in these models and describe all techniques which are needed for handling them in practice.

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