Numerical evidence of Sinai diffusion of random-mass Dirac particles

S. Palpacelli, S. Succi
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Abstract

We present quantum Lattice Boltzmann simulations of the Dirac equation for quantum-relativistic particles with random mass. By choosing zero-average random mass fluctuation, the simulations show evidence of localization and ultra-slow Sinai diffusion, due to the interference of oppositely propagating branches of the quantum wavefunction which result from random sign changes of the mass around a zero-mean. The present results indicate that the quantum lattice Boltzmann scheme may offer a viable tool for the numerical simulation of quantum-relativistic transport phenomena in topological materials.
随机质量狄拉克粒子西奈扩散的数值证据
我们提出了具有随机质量的量子相对论粒子的狄拉克方程的量子晶格玻尔兹曼模拟。通过选择零平均随机质量波动,模拟显示了局域化和超慢西奈扩散的证据,这是由于量子波函数的反向传播分支的干扰造成的,这些分支是由质量在零平均附近的随机符号变化引起的。本研究结果表明,量子晶格玻尔兹曼格式可以为拓扑材料中量子相对论输运现象的数值模拟提供一个可行的工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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