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Phonon-Induced Transparency in Functionalized Single Layer Graphene

Herein, intervalley scattering is exploited to account for anomalous antiresonances in the infrared spectra of doped and disordered single layer graphene. We present infrared spectroscopy measurements of graphene grafted with iodophenyl moieties in both reflection microscopy and transmission configurations. Asymmetric transparency windows at energies corresponding to phonon modes near the Γ and K points are observed, in contrast to the featureless spectrum of pristine graphene. These asymmetric antiresonances are demonstrated to vary as a function of the chemical potential. We propose a model which involves coherent intraband scattering with defects and phonons, thus relaxing the optical selection rule forbidding access to ${\bf q} \neq$ Γ phonons. This interpretation of the new phenomenon is supported by our numerical simulations that reproduce the experimental features.

preprint2015arXivOpen access
Bruno RousseauFrançois LapointeMinh NguyenMaxime BironEtienne GaufrèsSaman ChoubakZheng HanVincent BouchiatPatrick DesjardinsMichel CôtéRichard Martel
cond-mat.mes-hallcond-mat.mtrl-sci
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Open access11 authors2 topics
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Bruno RousseauFrançois LapointeMinh NguyenMaxime BironEtienne GaufrèsSaman ChoubakZheng HanVincent BouchiatPatrick DesjardinsMichel CôtéRichard Martel

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