Emergence of giant orbital Hall and tunable spin Hall effects in   centrosymmetric TMDs

Pratik Sahu; Jatin Kumar Bidika; Bubunu Biswal; S. Satpathy; and B. R.; K. Nanda

arXiv:2405.11892·cond-mat.mes-hall·May 21, 2024

Emergence of giant orbital Hall and tunable spin Hall effects in centrosymmetric TMDs

Pratik Sahu, Jatin Kumar Bidika, Bubunu Biswal, S. Satpathy, and B. R., K. Nanda

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Abstract

We demonstrate the formation of orbital and spin Hall effects (OHE/SHE) in the 1T phase of non-magnetic transition metal dichalcogenides. With the aid of density functional theory calculations and model Hamiltonian studies on MX $_{2}$ (M = Pt, Pd and X = S, Se, and Te), we show an intrinsic orbital Hall conductivity ( $\sim 1 0^{3} ℏ/ e Ω^{- 1} c m^{- 1}$ ) , which primarily emerges due to the orbital texture around the valleys in the momentum space. The robust spin-orbit coupling in these systems induces a sizable SHE out of OHE. Furthermore, to resemble the typical experimental setups, where the magnetic overlayers produce a proximity magnetic field, we examine the effect of magnetic field on OHE and SHE and showed that the latter can be doubled in these class of compounds. With a giant OHE and tunable SHE, the 1T-TMDs are promising candidates for spin and orbital driven quantum…

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Topics2D Materials and Applications · Magnetic and transport properties of perovskites and related materials · Topological Materials and Phenomena