D. Jahani scite author profile

D. Jahani

4Publications

87Citation Statements Received

44Citation Statements Given

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Affiliations

Sharif University of Technology, Materials and Energy Research Center, Islamic Azad University of Kermanshah

Publications

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Electronic transmission through p–n and n–p–n junctions of graphene

Setare

Jahani

2010

J. Phys.: Condens. Matter

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In this paper, we first evaluate the electronic transmission of Dirac fermions into a p-n junction of gapped graphene and show that the final result depends on the sign of the refractive index, n. We also, by considering the appropriate wavefunctions in the region of the electrostatic potential, show that both transmission and the reflection probability turn out to be positive and less than unity instead of the negative transmission and higher than unity reflection coefficient commonly referred to as the Klein paradox. We then obtain the transmission probability corresponding to a special p-n junction for which there exists a region in which the low energy excitations of graphene acquire a finite mass and, interestingly, find that in this case the transmission is independent of the index of refraction, in contrast with the corresponding result for gapped graphene. We then discuss the validity of the solutions reported in some of the papers cited in this work which, considering the Büttiker formula, turn out to lead to the wrong results for conductivity.

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Klein tunneling of massive Dirac fermions in single-layer graphene

Setare

Jahani

2010

Physica B: Condensed Matter

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Optical properties of fluidic defect states in one-dimensional graphene-based photonic crystal biosensors: visible and infrared Hall regime sensing

et al. 2020

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Magnetic dispersion of Dirac fermions in graphene under inhomogeneous field profiles

2018

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D. Jahani

Electronic transmission through p–n and n–p–n junctions of graphene

Klein tunneling of massive Dirac fermions in single-layer graphene

Optical properties of fluidic defect states in one-dimensional graphene-based photonic crystal biosensors: visible and infrared Hall regime sensing

Magnetic dispersion of Dirac fermions in graphene under inhomogeneous field profiles

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