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Phonon hydrodynamics and ultrahigh-room-temperature thermal conductivity in thin graphite

Allotropes of carbon, such as diamond and graphene, are among the best conductors of heat. We monitored the evolution of thermal conductivity in thin graphite as a function of temperature and thickness and found an intimate link between high conductivity, thickness, and phonon hydrodynamics. The room temperature in-plane thermal conductivity of 8.5-micrometer-thick graphite was 4300 watts per meter-kelvin-a value well above that for diamond and slightly larger than in isotopically purified graphene. Warming enhances thermal diffusivity across a wide temperature range, supporting partially hydrodynamic phonon flow. The enhancement of thermal conductivity that we observed with decreasing thickness points to a correlation between the out-of-plane momentum of phonons and the fraction of momentum relaxing collisions. We argue that this is due to the extreme phonon dispersion anisotropy in graphite.

preprint2020arXivOpen access
Yo MachidaNayuta MatsumotoTakayuki IsonoKamran Behnia
cond-mat.mes-hallcond-mat.str-elcond-mat.mtrl-sci
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Yo MachidaNayuta MatsumotoTakayuki IsonoKamran Behnia

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