Nonlinear electromagnetic response of graphene: frequency multiplication and the self-consistent-field effects

Mikhaǐlov, S. A.; Ziegler, K.

doi:10.1088/0953-8984/20/38/384204

Cited by 382 publications

(403 citation statements)

References 76 publications

(220 reference statements)

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“…13,14 Bilayer graphene ͑BLG͒ exhibits additional new properties not seen in single layer graphene; chief among them are the trigonal warping, 15,16 a phenomenon solely due to the interlayer coupling. The quantum Hall plateaus in BLG are doubled and independent of the interlayer coupling strength.…”

Section: Rqolqhdu Rswlfdo Vshfwuxp Ri Elod\hu Judskhqh Lq Wkh Whudkhmentioning

confidence: 99%

Nonlinear optical spectrum of bilayer graphene in the terahertz regime

2010

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Section: Rqolqhdu Rswlfdo Vshfwuxp Ri Elod\hu Judskhqh Lq Wkh Whudkhmentioning

confidence: 99%

Nonlinear optical spectrum of bilayer graphene in the terahertz regime

2010

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“…Several works in this direction show indeed that ac transport in graphene is a rich subject. Studies include quantum pumping [8][9][10][11][12], nonlinear electromagnetic response [13][14][15][16][17][18], and photon-assisted tunneling phenomena [19][20][21][22][23][24][25]. In theoretical investigations for low doping (Fermi energy E F close to the Dirac point) and high frequencies , with E F and of comparable magnitude (we put = 1), a true quantum mechanical description becomes necessary.…”

Section: Introductionmentioning

confidence: 99%

Resonant second-harmonic generation in a ballistic graphene transistor with an ac-driven gate

2016

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We report a theoretical study of time-dependent transport in a ballistic graphene field effect transistor. We develop a model based on Floquet theory describing Dirac electron transmission through a harmonically driven potential barrier. Photon-assisted tunneling results in excitation of quasibound states at the barrier. Under resonance conditions, the excitation of the quasibound states leads to promotion of higher-order sidebands and, in particular, an enhanced second harmonic of the source-drain conductance. The resonances in the main transmission channel are of the Fano form, while they are of the Breit-Wigner form for sidebands. For weak ac drive strength Z 1 , the dynamic Stark shift scales as Z 4 1 , while the resonance broadens as Z 2 1 . We discuss the possibility of utilizing the resonances in prospective ballistic high-frequency devices, in particular frequency doublers operating at high frequencies and low temperatures.

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“…Within the classical picture, it has been shown that frequency upconversion can be achieved within the Dirac description, 17 although the field response has been restricted to the linear E term. Here we shall adopt an approach that treats the coupling of the Dirac electron to the time-dependent electric field quantum mechanically to calculate the nonlinear terms, both in high order electrical field and in multiple frequencies.…”

mentioning

confidence: 99%

Strong nonlinear optical response of graphene in the terahertz regime

Wright

Cao

et al. 2009

Applied Physics Letters

236

227

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We demonstrate that within the model of massless Dirac fermions, graphene has a strong nonlinear optical response in the terahertz regime. It is found that the nonlinear contribution significantly alters both the single frequency and frequency tripled optical response at experimentally relevant field strengths. The optical activity of single layer graphene is significantly enhanced by nonlinear effects, and the frequency tripled response opens the gateway to photonic and optoelectronic device applications.

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Nonlinear electromagnetic response of graphene: frequency multiplication and the self-consistent-field effects

Cited by 382 publications

References 76 publications

Nonlinear optical spectrum of bilayer graphene in the terahertz regime

Nonlinear optical spectrum of bilayer graphene in the terahertz regime

Resonant second-harmonic generation in a ballistic graphene transistor with an ac-driven gate

Strong nonlinear optical response of graphene in the terahertz regime

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