Phonon anomalies in Graphene induced by highly excited charge carriers
2017 CONFERENCE ON LASERS AND ELECTRO-OPTICS EUROPE & EUROPEAN QUANTUM ELECTRONICS CONFERENCE (CLEO/EUROPE-EQEC)(2017)
摘要
Electron-phonon scattering and anharmonicity are the dominant mechanisms, that enable to describe the equilibrium phonon properties in graphene [1] and Raman scattering is the main tool for their characterization [2]. In the first tens fs after the photoexcitation, an out of equilibrium distribution of (hot) electron is induced with respect to the (cold) phonon bath. Within a few picoseconds, the fast electron-electron and electron-phonon non radiative recombination channels determine the equilibrium between the electronic distribution and the lattice. Therefore, on the laboratory timescale, continuous wave laser sources, commonly used for high resolution spontaneous Raman scattering, examine already equilibrated carrier-phonon distributions.
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关键词
phonon anomalies,graphene,highly excited charge carriers,electron-phonon scattering,anharmonicity,equilibrium phonon properties,spontaneous Raman scattering,photoexcitation,equilibrium distribution,electron-electron nonradiative recombination,electron-phonon nonradiative recombination,electronic distribution,continuous wave laser sources,hot charge carriers,ultrafast perturbation,optical phonons,spectral resolution,electronic subsystem temperature,Dirac cones,graphene-based nanophotonic devices,optoelectronic devices,C
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