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Finite-momentum superconductivity from chiral bands in twisted MoTe2.


ABSTRACT: A recent experiment has reported unconventional superconductivity in twisted bilayer MoTe2, emerging from a normal state that exhibits a finite anomalous Hall effect - a signature of intrinsic chirality. Motivated by this discovery, we construct a continuum model for twisted MoTe2 constrained by lattice symmetries from first-principles calculations that captures the moiré-induced inversion symmetry breaking even in the absence of a displacement field. Building on this model, we show that overscreening of the nominally repulsive Coulomb interaction gives rise to finite-momentum superconductivity in this chiral moiré system. Remarkably, the finite-momentum superconducting state can arise solely from internal symmetry breaking of the moiré superlattice, differentiating it from previously studied cases that require external fields. It further features a nonreciprocal quasiparticle dispersion and an intrinsic superconducting diode effect. Our results highlight a novel route to unconventional superconducting states in twisted transition metal dichalcogenides moiré systems, driven entirely by intrinsic symmetry-breaking effects.

SUBMITTER: Chen Y 

PROVIDER: S-EPMC12852829 | biostudies-literature | 2026 Jan

REPOSITORIES: biostudies-literature

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Finite-momentum superconductivity from chiral bands in twisted MoTe<sub>2</sub>.

Chen Yinqi Y   Xu Cheng C   Zhang Yang Y   Schrade Constantin C  

Nature communications 20260107 1


A recent experiment has reported unconventional superconductivity in twisted bilayer MoTe<sub>2</sub>, emerging from a normal state that exhibits a finite anomalous Hall effect - a signature of intrinsic chirality. Motivated by this discovery, we construct a continuum model for twisted MoTe<sub>2</sub> constrained by lattice symmetries from first-principles calculations that captures the moiré-induced inversion symmetry breaking even in the absence of a displacement field. Building on this model  ...[more]

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