A momentum space framework and truncation scheme for double-incommensurate trilayer graphene yields better convergence of density of states and captures band changes near magic-angle flat bands.
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3 Pith papers cite this work. Polarity classification is still indexing.
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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.
In-plane linear magnetoconductivity serves as an alternative probe of valley polarization in graphene multilayers that remains finite when the anomalous Hall effect vanishes due to symmetry.
citing papers explorer
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Momentum Space Algorithm for Electronic Structure of Double-Incommensurate Trilayer Graphene
A momentum space framework and truncation scheme for double-incommensurate trilayer graphene yields better convergence of density of states and captures band changes near magic-angle flat bands.
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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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Transport signatures of valley polarization in graphene multilayers: In-plane linear magnetoconductivity vs anomalous Hall effect
In-plane linear magnetoconductivity serves as an alternative probe of valley polarization in graphene multilayers that remains finite when the anomalous Hall effect vanishes due to symmetry.