Uniaxial strain and atomic reconstruction in MoSe2-WSe2 heterobilayers deterministically form quasi-1D domain walls that confine interlayer excitons, with confinement strength tuned by twist angle and electric field.
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A stable negative trion gas appears spontaneously at the surface of Ta2NiS5, detected as a localized in-gap state in ARPES and attributed to band bending plus quasi-1D geometry.
citing papers explorer
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Control of atomic reconstruction and quasi-1D excitons in strain-engineered moir\'e heterostructures
Uniaxial strain and atomic reconstruction in MoSe2-WSe2 heterobilayers deterministically form quasi-1D domain walls that confine interlayer excitons, with confinement strength tuned by twist angle and electric field.
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Trion gas on the surface of a failed excitonic insulator
A stable negative trion gas appears spontaneously at the surface of Ta2NiS5, detected as a localized in-gap state in ARPES and attributed to band bending plus quasi-1D geometry.