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High harmonic generation governed by edge states in triangular graphene quantum dots

Suresh Gnawali, Vadym Apalkov

2023Physical review. B./Physical review. B13 citationsDOIOpen Access PDF

Abstract

We study theoretically interaction of short optical pulses with triangular graphene quantum dots. If such quantum dots have zigzag edges then there are in-gap degenerate edge states, the number of which depends on the size of the system. We show that the nonlinear optical response, such as high harmonic generation, of triangular quantum dots is sensitive to the initial electron population of their edge states. In general, the emission spectra of quantum dots have weak dependence on the number of occupied edge states, but if half of the edge states are initially occupied, which can be realized only in the quantum dots with even number of edge states, then the even high harmonics are strongly suppressed. The suppression is the strongest when the frequency of the pulse is well below the band gap and it is weak when the pulse frequency becomes comparable to the band gap of the system.

Topics & Concepts

Quantum dotZigzagGrapheneCondensed matter physicsDegenerate energy levelsPhysicsBand gapHarmonicsElectronPopulationQuantum mechanicsMathematicsGeometrySociologyVoltageDemographyLaser-Matter Interactions and ApplicationsTerahertz technology and applicationsQuantum optics and atomic interactions