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Paper detail

Transient absorption and photocurrent microscopy show hot electron supercollisions describe the rate-limiting relaxation step in graphene

Using transient absorption (TA) microscopy as a hot electron thermometer we show disorder-assisted acoustic-phonon supercollisions (SCs) best describes the rate-limiting relaxation step in graphene over a wide range of lattice temperatures ($T_l=$5-300 K), Fermi energies ($E_F=\pm0.35$ eV), and optical probe energies (~0.3 - 1.1 eV). Comparison with simultaneously collected transient photocurrent, an independent hot electron thermometer, confirms the rate-limiting optical and electrical response in graphene are best described by the SC-heat dissipation rate model, $H=A(T^3_e- T^3_l)$. Our data further shows the electron cooling rate in substrate supported graphene is twice as fast as in suspended graphene sheets, consistent with SC-model prediction for disorder.

preprint2013arXivOpen access
Matt W. GrahamSu-Fei ShiZenghui WangDaniel C. RalphJiwoong ParkPaul L. McEuen
cond-mat.mes-hallcond-mat.mtrl-sci
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Matt W. GrahamSu-Fei ShiZenghui WangDaniel C. RalphJiwoong ParkPaul L. McEuen

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