MPS simulations of the Gross-Neveu-Wilson model at finite density reveal topological crystals for weak coupling and soliton lattices for stronger coupling due to Hilbert-space fragmentation, with quasi-spirals off the symmetry line.
Laflorencie, Quantum entanglement in condensed matter systems, Physics Reports 646, 1 (2016)
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A quantum Monte Carlo approach using the correlation density matrix detects dominant correlations in many-body systems without prior knowledge.
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Topological crystals and soliton lattices in a Gross-Neveu model with Hilbert-space fragmentation
MPS simulations of the Gross-Neveu-Wilson model at finite density reveal topological crystals for weak coupling and soliton lattices for stronger coupling due to Hilbert-space fragmentation, with quasi-spirals off the symmetry line.
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Detecting the Largest Correlations using the Correlation Density Matrix: a Quantum Monte Carlo Approach
A quantum Monte Carlo approach using the correlation density matrix detects dominant correlations in many-body systems without prior knowledge.