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Current injection by coherent one- and two-photon excitation in graphene and its bilayer

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2011

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Sipe, John E.

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http://nbn-resolving.de/urn:nbn:de:bsz:352-248098
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http://arxiv.org/abs/1101.4030

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Coherent control of optically-injected carrier distributions in single and bilayer graphene allows the injection of electrical currents. Using a tight-binding model and Fermi's golden rule, we derive the carrier and photocurrent densities achieved via interference of the quantum amplitudes for two-photon absorption at a fundamental frequency, $\omega$, and one-photon absorption at the second harmonic, $2\omega$. Strong currents are injected under co-circular and linear polarizations. In contrast, opposite-circular polarization yields no net current. For single-layer graphene, the magnitude of the current is unaffected by the rotation of linear-polarization axes, in contrast with the bilayer and with conventional semiconductors. The dependence of the photocurrent on the linear-polarization axes is a clear and measurable signature of interlayer coupling in AB-stacked multilayer graphene. We also find that single and bilayer graphene exhibit a strong, distinct linear-circular dichroism in two-photon absorption.

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ISO 690RIOUX, Julien, Guido BURKARD, John E. SIPE, 2011. Current injection by coherent one- and two-photon excitation in graphene and its bilayer
BibTex
@unpublished{Rioux2011Curre-24809,
  year={2011},
  title={Current injection by coherent one- and two-photon excitation in graphene and its bilayer},
  author={Rioux, Julien and Burkard, Guido and Sipe, John E.}
}
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