Nonperturbative model of harmonic generation in undoped graphene in the terahertz regime

We present a formalism to calculate the nonlinear terahertz response of monolayer graphene using a two-band tight-binding model of graphene. We develop the dynamic equations for the electron density matrix in the length gauge to calculate the interband and intraband carrier dynamics at terahertz fre...

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Bibliographic Details
Published in:New journal of physics 2015-11, Vol.17 (11), p.113018
Main Authors: Al-Naib, Ibraheem, Sipe, J E, Dignam, Marc M
Format: Article
Language:English
Subjects:
Ambient temperature
Current density
Electron density
Graphene
Harmonic generations
Harmonics
high-harmonic generation
Low temperature
Mathematical models
Monolayers
Nonlinear dynamics
Nonlinear response
Nonlinearity
Operating temperature
Physics
Pulse duration
Temperature dependence
terahertz
Terahertz frequencies
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Summary:We present a formalism to calculate the nonlinear terahertz response of monolayer graphene using a two-band tight-binding model of graphene. We develop the dynamic equations for the electron density matrix in the length gauge to calculate the interband and intraband carrier dynamics at terahertz frequencies. Using the calculated nonlinear interband and intraband current densities, we obtain the nonlinear transmitted and reflected terahertz fields. We find that when the conditions are such that the interband and intraband current densities are comparable, strong generation of odd harmonics is observed. We examine the response of undoped graphene as a function of a wide variety of system parameters, including operating temperature, Fermi velocity, pulse duration, and terahertz central frequency. We find that the response is generally most sensitive to the operating temperature and the terahertz central frequency. In particular, changing the ambient temperature from 10 to 100 K reduces the third harmonic field by a factor of 20, while increasing the terahertz central frequency from 0.5 to 5 THz results in an increase in the ratio of the generated third harmonic field to the fundamental of the reflected field from 19% to 49%. The very strong dependence on the temperature and central frequency is found to be due to the strong dependence of the nonlinear generation on the strength of the interplay between the intraband and interband dynamics. Our work demonstrates that, under the right conditions of low temperature and moderate THz field central frequency, third harmonic generation should be experimentally observable in undoped monolayer graphene at moderate THz field amplitudes of only 1 kV cm−1.
ISSN:1367-2630
1367-2630
DOI:10.1088/1367-2630/17/11/113018