Effect of defect-induced cooling on graphene hot-electron bolometers

Abdel El Fatimy; Peize Han; Nicholas Quirk; Luke St. Marie; Matthew T. Dejarld; Rachael L. Myers-Ward; Kevin M. Daniels; Shojan P. Pavunny; D. Kurt Gaskill; Yigit Aytac; Paola Barbara

doi:https://doi.org/10.1016/j.carbon.2019.08.019

doi.org/10.1016/j.carbon.2019.08.019

Effect of defect-induced cooling on graphene hot-electron bolometers

,

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..., Paola Barbara

22

Carbon10.90

Volume: 154, Pages: 497 - 502

Published: Dec 1, 2019

Abstract

At high phonon temperature, defect-mediated electron-phonon collisions (supercollisions) in graphene allow for larger energy transfer and faster cooling of hot electrons than the normal, momentum-conserving electron-phonon collisions. Disorder also affects the heat flow between electrons and phonons at very low phonon temperature, where the phonon wavelength exceeds the mean free path. In both cases, the cooling rate is predicted to exhibit a...

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Paper Details

Title

Effect of defect-induced cooling on graphene hot-electron bolometers

DOI

doi.org/10.1016/j.carbon.2019.08.019

Published Date

Dec 1, 2019

Journal

Carbon

Volume

154

Pages

497 - 502

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