Left- and right-handed trigonal Se and Te enantiomers exhibit opposite signs in the σ_yx^{S_y} and σ_yx^{L_y} components of spin and orbital Hall conductivities due to mirror symmetry between their space groups.
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2 Pith papers cite this work. Polarity classification is still indexing.
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A Wannier-based definition of the orbital angular momentum operator that includes itinerant parts produces significant non-local corrections to orbital Hall conductivity in first-principles calculations across several materials.
citing papers explorer
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Probing the Chirality of Trigonal Selenium and Tellurium by Spin and Orbital Hall Effects
Left- and right-handed trigonal Se and Te enantiomers exhibit opposite signs in the σ_yx^{S_y} and σ_yx^{L_y} components of spin and orbital Hall conductivities due to mirror symmetry between their space groups.
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Modern Approach to Orbital Hall Effect Based on Wannier Picture of Solids
A Wannier-based definition of the orbital angular momentum operator that includes itinerant parts produces significant non-local corrections to orbital Hall conductivity in first-principles calculations across several materials.