Anomalous energy diffusion in two-dimensional nonlinear lattices
Autor: | Xiu-Lian Xu, Xiao-zhi Luo, Nianbei Li, Tian-xing Liu, Jian Wang |
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Jazyk: | angličtina |
Rok vydání: | 2019 |
Předmět: |
Physics
Statistical Mechanics (cond-mat.stat-mech) FOS: Physical sciences Energy–momentum relation Nonlinear lattice 01 natural sciences 010305 fluids & plasmas Momentum Distribution (mathematics) Thermal conductivity 0103 physical sciences Statistical physics Diffusion (business) 010306 general physics Divergence (statistics) Energy (signal processing) Condensed Matter - Statistical Mechanics |
Popis: | Heat transport in one-dimensional (1D) momentum-conserving lattices is generally assumed to be anomalous, thus yielding a power-law divergence of thermal conductivity with system length. However, whether heat transport in two-dimensional (2D) system is anomalous or not is still on debate because of the difficulties involved in experimental measurements or due to the insufficiently large simulation size. Here, we simulate energy and momentum diffusion in the 2D nonlinear lattices using the method of fluctuation correlation functions. Our simulations confirm that energy diffusion in the 2D momentum-conserving lattices is anomalous and can be well described by the L\'{e}vy-stable distribution. We also find that the disappear of side peaks of heat mode may suggest a weak coupling between heat mode and sound mode in the 2D nonlinear system. It is also observed that the harmonic interactions in the 2D nonlinear lattices can accelerate the energy diffusion. Contrary to the hypothesis of 1D system, we clarify that anomalous heat transport in the 2D momentum-conserving system cannot be corroborated by the momentum superdiffusion any more. Moreover, as is expected, lattices with a nonlinear on-site potential exhibit normal energy diffusion, independent of the dimension. Our findings offer some valuable insights into the mechanism of thermal transport in 2D system. Comment: 24 pages, 12 figures |
Databáze: | OpenAIRE |
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