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Characteristics of distinct thermal transport behaviors in single-layer and multilayer graphene

Cuiqian Yu, Shuyue Shan, Shuang Lü, Zhongwei Zhang, Jie Chen

2023Physical review. B./Physical review. B32 citationsDOI

Abstract

As a crucial signature of hydrodynamic phonon transport, second sound is currently raising research attention in the field of non-Fourier heat conduction. In this work, through molecular dynamics simulations, the fundamental characteristics of second sound are explored from a transient heat conduction modeling in the single-layer and multilayer graphene and graphite. Our simulation results demonstrate that second sound can carry more heat energy and maintain for a longer lifetime than that of the ballistic pulse. The underlying mechanisms are carefully discussed from the modal energy analysis. In addition, we also unveil that the thickness in multilayer graphene and graphite significantly suppresses the propagation of second sound due to the enhanced weight of umklapp scattering. The effects of excitation temperature and ambient temperature on the second sound are also studied. Our simulation results reveal that the second sound in single-layer graphene can persist up to 110 K. This work provides valuable insight into the basic characteristics of second sound, which should be critical in the understanding of hydrodynamic phonon transport and thermal physics in graphene and its derivatives.

Topics & Concepts

GrapheneThermal conductionMaterials scienceGraphiteWork (physics)PhononScatteringSpeed of soundThermalSecond soundCondensed matter physicsSound (geography)AcousticsNanotechnologyPhysicsOpticsThermodynamicsComposite materialThermal properties of materialsThermal Radiation and Cooling TechnologiesThermoelastic and Magnetoelastic Phenomena
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