TMD monolayers exhibit an orbital Nernst effect independent of spin-orbit coupling and a spin Nernst effect that scales with it, both tunable by doping and arising from Berry curvatures.
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3 Pith papers cite this work, alongside 2 external citations. Polarity classification is still indexing.
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Terahertz optorbitronics tracks non-equilibrium orbital currents on femtosecond timescales, addressing conflicting reports on their propagation distances and suggesting control methods via materials like graphene and altermagnets.
A historical review tracing how ultrafast demagnetization research led to all-optical switching and femtosecond spin injection for deterministic magnetization reversal in spintronic structures.
citing papers explorer
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Orbital and Spin Nernst Effects in Monolayers of Transition Metal Dichalcogenides
TMD monolayers exhibit an orbital Nernst effect independent of spin-orbit coupling and a spin Nernst effect that scales with it, both tunable by doping and arising from Berry curvatures.
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Non-Equilibrium Orbital Transport in Terahertz Optorbitronics
Terahertz optorbitronics tracks non-equilibrium orbital currents on femtosecond timescales, addressing conflicting reports on their propagation distances and suggesting control methods via materials like graphene and altermagnets.
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From Ultrafast Demagnetization to Ultrafast Spintronics : a 30 years story
A historical review tracing how ultrafast demagnetization research led to all-optical switching and femtosecond spin injection for deterministic magnetization reversal in spintronic structures.