Two-pulse space-time photocurrent correlations at graphene p-n junctions reveal hot carrier cooling dynamics near the fermi level

M. W. Graham; S. Shi; D. C. Ralph; J. Park; P. L. McEuen

Conference ProceedingsOPEN ACCESS

Two-pulse space-time photocurrent correlations at graphene p-n junctions reveal hot carrier cooling dynamics near the fermi level

EPJ Web of Conferences (2013) 41

DOI: 10.1051/epjconf/20134104026

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Abstract

Two-pulse excitation at a graphene p-n junction generates a time-dependent photocurrent response that we show functions as a novel ultrafast thermometer of the hot electron temperature, Te(t). The extracted hot electron cooling rates are consistent with heat dissipation near the Fermi level of graphene occurring by an acoustic phonon supercollision mechanism. © Owned by the authors, published by EDP Sciences, 2013.

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Graham, M. W., Shi, S., Ralph, D. C., Park, J., & McEuen, P. L. (2013). Two-pulse space-time photocurrent correlations at graphene p-n junctions reveal hot carrier cooling dynamics near the fermi level. In EPJ Web of Conferences (Vol. 41). https://doi.org/10.1051/epjconf/20134104026

Two-pulse space-time photocurrent correlations at graphene p-n junctions reveal hot carrier cooling dynamics near the fermi level

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