Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
2011-09-21
Physics
Condensed Matter
Strongly Correlated Electrons
13 pages,14 figures
Scientific paper
Recently, the Grassmann-tensor-entanglement renormalization group(GTERG) approach was proposed as a generic variational approach to study strongly correlated boson/fermion systems\cite{GuGTPS}. However, the weakness of such a simple variational approach is that generic Grassmann tensor product states(GTPS) with large inner dimension $D$ will contain a large number of variational parameters and be hard to be determined through usual minimization procedures. In this paper, we first introduce a standard form of GTPS which significantly simplifies the representations. Then we describe a simple imaginary-time-evolution algorithm to efficiently update the GTPS based on the fermion coherent state representation and show all the algorithm developed for usual tensor product states(TPS) can be implemented for GTPS in a similar way. Finally, we study the environment effect for the GTERG approach and propose a simple method to further improve its accuracy. We demonstrate our algorithms by studying a simple 2D free fermion system on honeycomb lattice, including both off-critical and critical cases.
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