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17 July 2017 Induced nonlinear cross sections of conductive electrons scattering on the charged impurities in doped graphene
Ara K. Avetissian, Armenhui G. Ghazaryan, Khachik V. Sedrakian, Babken R. Avchyan
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Journal of Nanophotonics, Vol. 11, Issue 3, 036004 (July 2017). https://doi.org/10.1117/1.JNP.11.036004
Abstract
Relativistic quantum theory of induced scattering of two-dimensional Dirac particles by electrostatic field of an impurity ion (in the Born approximation) in the doped graphene in the presence of an external electromagnetic (EM) radiation field (actually terahertz radiation, to exclude the valence electrons excitations at high Fermi energies) has been developed. It is shown that the strong coupling of massless quasiparticles in the quantum nanostructures to a strong EM radiation field leads to the strong nonlinear response of graphene, which opens diverse ways for manipulating the electronic transport properties of conductive electrons by coherent radiation fields.
© 2017 Society of Photo-Optical Instrumentation Engineers (SPIE) 1934-2608/2017/$25.00 © 2017 SPIE
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Ara K. Avetissian, Armenhui G. Ghazaryan, Khachik V. Sedrakian, and Babken R. Avchyan "Induced nonlinear cross sections of conductive electrons scattering on the charged impurities in doped graphene," Journal of Nanophotonics 11(3), 036004 (17 July 2017). https://doi.org/10.1117/1.JNP.11.036004
Received: 23 March 2017; Accepted: 23 June 2017; Published: 17 July 2017
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KEYWORDS
Electrons
Graphene
Scattering
Terahertz radiation
Electromagnetic scattering
Electromagnetic scattering theory
Electromagnetism
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