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On Laser-Induced High-Order Wave Mixing and Harmonic Generation in a Graphene Quantum Dot

B. R. Avchyan, A. G. Ghazaryan, K. A. Sargsyan, Kh. V. Sedrakian

2022Journal of Experimental and Theoretical Physics Letters17 citationsDOIOpen Access PDF

Abstract

We present results of numerical investigations of high-order wave mixing/harmonic generation (HWM/HHG) with many-body interaction processes derived by a strong two-frequency circular laser field in a graphene quantum dot (GQD). The influence of the relative phase of such a laser field on the spectrum of high-order harmonics generated in the GQD is shown. This may allow controlling the polarization of the generated harmonics. The GQD is described by the nearest neighbor tight-binding (TB) model. The multiparticle interaction is considered in an extended Hubbard approximation. We solve quantum kinetic equations in on-site representations for charged carriers by method have already applied by us, and obtain a general formula for high-order wave mixing/harmonic generation processes in GQD. The considerable enhancement of the HWM/HHG yield due to the matching of the symmetries of the light-wave–dot system takes place for the GQD with the particular group symmetry. The analysis of obtained results confirms enough efficiency of HWM/HHG in GQDs of the triangular and hexagonal shapes with zigzag edges at certain phases of a two-frequency circular laser field.

Topics & Concepts

PhysicsHigh harmonic generationHarmonicsGrapheneQuantum dotLaserQuantum mechanicsCondensed matter physicsVoltageLaser-Matter Interactions and ApplicationsQuantum optics and atomic interactionsSemiconductor Quantum Structures and Devices
On Laser-Induced High-Order Wave Mixing and Harmonic Generation in a Graphene Quantum Dot | Litcius