A doubly resonant cascaded nonlinear pathway in TMDs yields substantially enhanced high-lying valley polarization via reshaped quantum-geometric selection rules.
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DFT plus Monte Carlo simulations predict itinerant ferromagnetism with Tc exceeding 160 K in p-doped MoS2 monolayers at 9% V concentration.
Spin-dependent tunneling competes with intervalley scattering to set photoluminescence polarization dynamics in TMD/magnetic vdW heterostructures, enabling sign switching under circular excitation.
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Enhanced Valley Polarization via Nonlinear Cascaded Quantum-Geometric Selection Rules
A doubly resonant cascaded nonlinear pathway in TMDs yields substantially enhanced high-lying valley polarization via reshaped quantum-geometric selection rules.
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Itinerant Ferromagnetism in p-doped Monolayers of MoS2
DFT plus Monte Carlo simulations predict itinerant ferromagnetism with Tc exceeding 160 K in p-doped MoS2 monolayers at 9% V concentration.
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Effect of spin-dependent tunneling and intervalley scattering in magnetic-semiconductor van der Waals heterostructures on exciton and trion polarization
Spin-dependent tunneling competes with intervalley scattering to set photoluminescence polarization dynamics in TMD/magnetic vdW heterostructures, enabling sign switching under circular excitation.