Magnetization-non-conserving spin-orbit interactions enable quantum fluctuations to stabilize chiral ferromagnetic phases with spontaneous orbital chirality and enhanced thermal Hall effect, contrary to classical predictions of only collinear order.
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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.
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Fluctuation-driven chiral ferromagnetism
Magnetization-non-conserving spin-orbit interactions enable quantum fluctuations to stabilize chiral ferromagnetic phases with spontaneous orbital chirality and enhanced thermal Hall effect, contrary to classical predictions of only collinear order.
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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.