Superconductivity in twisted WSe2 evolves smoothly with twist angle and stays proximal to a presumed antiferromagnetic Fermi surface reconstruction, independent of Van Hove singularity or half band insulator.
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CDW amplitude modulates effective Hubbard U in 1T-TaS2, shifting bands and enabling a Mott-to-correlated-metal transition upon reduced distortion.
First-principles calculations reveal three-dimensional flat bands in alternating twisted NbSe2 moiré bulk at small twist angles after large-scale relaxation, with out-of-plane mirror symmetry suggesting possible interlayer triplet superconducting pairing.
citing papers explorer
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Angle evolution of the superconducting phase diagram in twisted bilayer WSe2
Superconductivity in twisted WSe2 evolves smoothly with twist angle and stays proximal to a presumed antiferromagnetic Fermi surface reconstruction, independent of Van Hove singularity or half band insulator.
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Dynamical control of Coulomb interactions and Hubbard bands in monolayer 1T-TaS$_2$
CDW amplitude modulates effective Hubbard U in 1T-TaS2, shifting bands and enabling a Mott-to-correlated-metal transition upon reduced distortion.
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Three-dimensional flat bands and possible interlayer triplet pairing superconductivity in the alternating twisted NbSe$_2$ moir\'e bulk
First-principles calculations reveal three-dimensional flat bands in alternating twisted NbSe2 moiré bulk at small twist angles after large-scale relaxation, with out-of-plane mirror symmetry suggesting possible interlayer triplet superconducting pairing.