Hao Xie scite author profile

Charge carrier scattering channels in graphite bridging its valence and conduction band offer an efficient Auger recombination dynamic to promote low energy charge carriers to higher energy states. It is of importance to answer the question whether a large number of charge carriers can be promoted to higher energy states to enhance the quantum efficiency of photodetectors. Here, we present an experimental demonstration of an effective Auger recombination process in the photo-excited nano-graphite film. The time-resolved hot carrier thermalization was analyzed based on the energy dissipation via the Auger scattering channels. We split the Auger recombination occurrence centered at 0.40 eV energy state into scattering and recombination parts, for characterizing the scattering rate in the conduction band and the recombination rate toward the valence band. The scattering time with respect to the energy state was extracted as 8 ps · eV−1, while the recombination time with respect to the energy state was extracted as 24 ps · eV−1. Our study indicates a 300 fs delay between the hot carrier recombination and generation, leading to a 105 ps−1 · cm−3 Auger scattering efficiency. The observed duration for the Auger recombination to generate hot carriers is prolonged for 1 ps, due to the hot carriers energy relaxation bottleneck with optical-phonons in the nano-graphite. The presented analytic expression gives valuable insights into the Auger recombination dynamic to estimate its most efficient energy regime for mid-infrared photodetection.

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Numerical simulation of UWB impulse radar vital sign detection at an earthquake disaster site

Liu

Xie

et al. 2014

Ad Hoc Networks

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Tunable THz Multiband Frequency-Selective Surface Based on Hybrid Metal–Graphene Structures

Wang

Zhao

Xie

et al. 2017

IEEE Trans. Nanotechnology

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Hao Xie

Fate and transport of oil in sediment laden marine waters

Auger scattering dynamic of photo-excited hot carriers in nano-graphite film

Numerical simulation of UWB impulse radar vital sign detection at an earthquake disaster site

Tunable THz Multiband Frequency-Selective Surface Based on Hybrid Metal–Graphene Structures

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