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Modified spin–orbit couplings in uniaxially strained graphene

Author

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  • Hamed Rezaei

    (Azarbaijan Shahid Madani University
    Condensed Matter Computational Research Lab, Azarbaijan Shahid Madani University)

  • Arash Phirouznia

    (Azarbaijan Shahid Madani University
    Condensed Matter Computational Research Lab, Azarbaijan Shahid Madani University
    Computational Nanomaterials Research Group (CNRG), Azarbaijan Shahid Madani University)

Abstract

Intrinsic and Rashba spin–orbit interactions in strained graphene is studied within the tight-binding (TB) approach. Dependence of Slater–Koster (SK) parameters of graphene on strain are extracted by fitting the ab initio band structure to the TB results. A generalized low-energy effective Hamiltonian in the presence of spin–orbit couplings (SOCs) is proposed for strained graphene subjected to an external perpendicular electric field. Dependence of the modified Rashba strength and other parameters of effective Hamiltonian on the strain and electric field are calculated. In order to analyze the influence of the applied strain on the electronic properties of the graphene, one must take into account the lattice deformation, modifications of the hopping amplitudes and shift of the Dirac points. We find that using the strain it is possible to control the strength of Rashba and intrinsic SOCs as well as energy gap at the shifted Dirac points. Meanwhile, the strain slightly modifies the topology of low-energy dispersion around the Dirac points. We describe the SOCs induced energy splitting as a function of strain.

Suggested Citation

  • Hamed Rezaei & Arash Phirouznia, 2018. "Modified spin–orbit couplings in uniaxially strained graphene," The European Physical Journal B: Condensed Matter and Complex Systems, Springer;EDP Sciences, vol. 91(11), pages 1-10, November.
    • Handle: RePEc:spr:eurphb:v:91:y:2018:i:11:d:10.1140_epjb_e2018-80663-2
    DOI: 10.1140/epjb/e2018-80663-2
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