Transport data show correlated insulators and superconductivity signatures up to 6 K in p-type twisted double-bilayer WSe2 across twist angles 1-4 degrees with no single magic angle.
arXiv preprint arXiv:1903.06952 2019
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Constrained-path quantum Monte Carlo simulations of the Hubbard model on AA-stacked honeycomb lattices demonstrate that an electric field induces dominant chiral d+id wave pairing superconductivity at half filling.
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Interaction effects and superconductivity signatures in twisted double-bilayer WSe$_2$
Transport data show correlated insulators and superconductivity signatures up to 6 K in p-type twisted double-bilayer WSe2 across twist angles 1-4 degrees with no single magic angle.
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Electric field-induced chiral d+id superconducting state in AA-stacked bilayer graphene: A quantum Monte Carlo study
Constrained-path quantum Monte Carlo simulations of the Hubbard model on AA-stacked honeycomb lattices demonstrate that an electric field induces dominant chiral d+id wave pairing superconductivity at half filling.