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arxiv: 2410.11653 · v1 · pith:RZMPVQ7O · submitted 2024-10-15 · cond-mat.mes-hall

Valley-spin polarization at zero magnetic field induced by strong hole-hole interactions in monolayer WSe₂

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classification cond-mat.mes-hall
keywords spin-valleystrongmonolayerpolarizedeffectfieldhole-holeinteractions
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Monolayer transition metal dichalcogenides have emerged as prominent candidates to explore the complex interplay between the spin and the valleys degrees of freedom. The strong spin-orbit interaction and broken inversion symmetry within these materials lead to the spin-valley locking effect, in which carriers occupying the K and K' valleys of the reciprocal space must have opposite spin depending on which valley they reside. This effect is particularly strong for holes due to a larger spin-orbit gap in the valence band. By reducing the dimensionality of a monolayer of tungsten diselenide to 1D via electrostatic confinement, we demonstrate that spin-valley locking in combination with strong hole-hole interactions lead to a ferromagnetic state in which hole transport through the 1D system is spin-valley polarized, even without an applied magnetic field, and that the persistence of this spin-valley polarized configuration can be tuned by a global back-gate. This observation opens the possibility of implementing a robust and stable valley polarized system, essential for valleytronic applications.

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