Please use this identifier to cite or link to this item: https://doi.org/10.1103/PhysRevB.85.115432
Title: Lattice-corrected strain-induced vector potentials in graphene
Authors: Kitt, A.L.
Pereira, V.M. 
Swan, A.K.
Goldberg, B.B.
Issue Date: 22-Mar-2012
Citation: Kitt, A.L., Pereira, V.M., Swan, A.K., Goldberg, B.B. (2012-03-22). Lattice-corrected strain-induced vector potentials in graphene. Physical Review B - Condensed Matter and Materials Physics 85 (11) : -. ScholarBank@NUS Repository. https://doi.org/10.1103/PhysRevB.85.115432
Abstract: The electronic implications of strain in graphene can be captured at low energies by means of pseudovector potentials which can give rise to pseudomagnetic fields. These strain-induced vector potentials arise from the local perturbation to the electronic hopping amplitudes in a tight-binding framework. Here we complete the standard description of the strain-induced vector potential, which accounts only for the hopping perturbation, with the explicit inclusion of the lattice deformations or, equivalently, the deformation of the Brillouin zone. These corrections are linear in strain and are different at each of the strained, inequivalent Dirac points, and hence are equally necessary to identify the precise magnitude of the vector potential. This effect can be relevant in scenarios of inhomogeneous strain profiles, where electronic motion depends on the amount of overlap among the local Fermi surfaces. In particular, it affects the pseudomagnetic field distribution induced by inhomogeneous strain configurations, and can lead to new opportunities in tailoring the optimal strain fields for certain desired functionalities. © 2012 American Physical Society.
Source Title: Physical Review B - Condensed Matter and Materials Physics
URI: http://scholarbank.nus.edu.sg/handle/10635/97055
ISSN: 10980121
DOI: 10.1103/PhysRevB.85.115432
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