Cüneyt Şahin scite author profile

Intrinsic spin Hall conductivities are calculated for strong spin-orbit Bi(1-x)Sb(x) semimetals, from the Kubo formula and using Berry curvatures evaluated throughout the Brillouin zone from a tight-binding Hamiltonian. Nearly crossing bands with strong spin-orbit interaction generate giant spin Hall conductivities in these materials, ranging from 474 (ℏ/e)(Ω cm)^{-1} for bismuth to 96 (ℏ/e)(Ω cm)^{-1} for antimony; the value for bismuth is more than twice that of platinum. The large spin Hall conductivities persist for alloy compositions corresponding to a three-dimensional topological insulator state, such as Bi(0.83)Sb(0.17). The spin Hall conductivity could be changed by a factor of 5 for doped Bi, or for Bi(0.83)Sb(0.17), by changing the chemical potential by 0.5 eV, suggesting the potential for doping or voltage tuned spin Hall current.

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Fermi level dependent spin pumping from a magnetic insulator into a topological insulator

Wang

Kally

Şahin

et al. 2019

Phys. Rev. Research

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Topological spintronics aims to exploit the spin-momentum locking in the helical surface states of topological insulators for spin-orbit torque devices. We address a fundamental question that still remains unresolved in this context: does the topological surface state alone produce the largest values of spin-charge conversion efficiency or can the strongly spin-orbit coupled bulk states also contribute significantly? By studying the Fermi level dependence of spin pumping in topological insulator/ferrimagnetic insulator bilayers, we show that the spin Hall conductivity is constant when the Fermi level is tuned across the bulk band gap, consistent with a full bulk band calculation. The results suggest a new perspective, wherein "bulk-surface correspondence" allows spin-charge conversion to be simultaneously viewed either as coming from the full bulk band, or from spinmomentum locking of the surface state. :1906.11116v1 [cond-mat.mtrl-sci] arXiv

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Pancharatnam-Berry phase and kinetic magnetoelectric effect in trigonal tellurium

Şahin

Rou

et al. 2018

Phys. Rev. B

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We study the kinetic magnetoelectric effect (current-induced magnetization including both the orbital and spin contributions) in three-dimensional conductors, specializing to the case of p-doped trigonal tellurium. We include both intrinsic and extrinsic contributions to the effect, which stem from the band structure of the crystal, and from disorder scattering, respectively. Specifically, we determine the dependence of the kinetic magnetoelectric response on the hole doping in tellurium, and show that the intrinsic and extrinsic effects dominate for low and high levels of doping, respectively. The results of this work imply that three-dimensional helical metals are promising for spintronics applications, in particular, they can provide robust control over current-induced magnetic torques.In this Section we summarize the current state of the KME theory in semimetals and doped semiconductors. arXiv:1712.06586v1 [cond-mat.mes-hall]

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Large magnon-induced anomalous Nernst conductivity in single-crystal MnBi

Şahin

Boona

et al. 2021

Joule

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Transverse thermoelectrics utilizing the anomalous Nernst effect (ANE) can be a novel approach to energy sustainability. We investigate the thermoelectric transport properties in ferromagnetic MnBi and observe one of the largest ANEs ever reported. We attribute this giant ANE to the coexistence of ferromagnetism and the heavy Bi atom. Our discovery proposes an alternative recipe to generate large ANE, which introduce a large spin-orbit coupling to ferromagnetic systems.

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Cüneyt Şahin

Tunable Giant Spin Hall Conductivities in a Strong Spin-Orbit Semimetal:Bi1−xSbx

Fermi level dependent spin pumping from a magnetic insulator into a topological insulator

Pancharatnam-Berry phase and kinetic magnetoelectric effect in trigonal tellurium

Large magnon-induced anomalous Nernst conductivity in single-crystal MnBi

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