Graphene under uniaxial inhomogeneous strain and an external electric field: Landau levels, electronic, magnetic and optical properties
We investigate graphene under an inhomogeneous uniaxial strain and an in-plane electric
field. We examine in detail the effect of strain and the electric field on relativistic Landau …
field. We examine in detail the effect of strain and the electric field on relativistic Landau …
Weyl–Dirac Equation in Fractional-Dimensional Space: Graphene
H Merad - Few-Body Systems, 2022 - Springer
In this paper, we have treated exact analytical the two-dimensional massless Dirac–Weyl
equation under the effect of a uniform electromagnetic field within a fractional-dimensional …
equation under the effect of a uniform electromagnetic field within a fractional-dimensional …
Signature of curved QFT effects on the optical properties of deformed graphene
The Dirac equation in curved space is used to study the optical transmittance of deformed
graphene along a given direction. Our theoretical analysis of the available experimental …
graphene along a given direction. Our theoretical analysis of the available experimental …
Frequency dependent optical conductivity of strained graphene at T= 0 from an effective quantum field theory
SJ Zhang, H Pan, HL Wang - Physica B: Condensed Matter, 2017 - Elsevier
An effective quantum field theory (EQFT) graphene sheet with arbitrary one dimensional
strain field is derived from a microscopic effective low energy Hamiltonian. The geometric …
strain field is derived from a microscopic effective low energy Hamiltonian. The geometric …
Full photon propagator and boundary charges in a 4D bulk with a 3D defect
H Jia - 2021 - open.library.ubc.ca
We conduct a review of the basic concepts about boundary conformal field theory and
boundary conformal anomalies. Next, we build a 4-D bulk and insert it with a 3-D fermion …
boundary conformal anomalies. Next, we build a 4-D bulk and insert it with a 3-D fermion …
Signature of curved QFT effects on the optical properties of deformed graphene: Curved QFT effects on the optical properties of deformed graphene
The Dirac equation in curved space is used to study the optical transmittance of deformed
graphene along a given direction. Our theoretical analysis of the available experimental …
graphene along a given direction. Our theoretical analysis of the available experimental …
Two Dimensional Honeycomb Materials: random fields, dissipation and fluctuations
In this paper, we propose a method to describe the many-body problem of electrons in
honeycomb materials via the introduction of random fields which are coupled to the …
honeycomb materials via the introduction of random fields which are coupled to the …