Introduces an efficient SSE QMC algorithm with global updates and parallel tempering for mixed-dimensional models and applies it to map angle-dependent correlated insulators and Wigner-Mott states in M-point twisted AA-stacked SnSe2.
Wang , author G
4 Pith papers cite this work. Polarity classification is still indexing.
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Proposes Zeeman-field response tests to determine singlet or triplet pairing symmetry in moiré graphene superconductors from the IKS normal state.
Controlled loop expansion in strained MATBG reveals U(1) symmetry suppressing Mott band linewidths at order s² and predicts strain-induced kinks plus a flat trion band, with one-loop QTM spectra compared to experiment.
Quantum many-body calculations identify a strain-tuned transition from the Kramers intervalley coherent state to the incommensurate Kekulé spiral state at filling factors ±2 in twisted bilayer graphene.
citing papers explorer
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Mixed-dimensional quantum Monte Carlo studies of M-point moir\'e materials
Introduces an efficient SSE QMC algorithm with global updates and parallel tempering for mixed-dimensional models and applies it to map angle-dependent correlated insulators and Wigner-Mott states in M-point twisted AA-stacked SnSe2.
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Controlled Loop Expansion for Strained Twisted Bilayer Graphene
Controlled loop expansion in strained MATBG reveals U(1) symmetry suppressing Mott band linewidths at order s² and predicts strain-induced kinks plus a flat trion band, with one-loop QTM spectra compared to experiment.
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Strain-Tuned Incommensurate Kekul\'e Spiral Order in Twisted Bilayer Graphene: a Quantum Many-Body Study
Quantum many-body calculations identify a strain-tuned transition from the Kramers intervalley coherent state to the incommensurate Kekulé spiral state at filling factors ±2 in twisted bilayer graphene.