具有饱和速率的运行和翻滚粒子

Kavita Jain, Sakuntala Chatterjee
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引用次数: 0

摘要

我们考虑的是一个奔跑和翻滚的粒子,它的速度和翻滚率在无限长的直线上与空间有关。与以往关于此类模型的大多数研究不同,我们在这里提出了一个物理假设,即在大距离上,粒子的速度会饱和到一个常数。对于我们选择的速率函数,我们证明了静止态的存在,并且精确的稳态分布以指数或更快的速度衰减,可以是单峰或双峰。粒子的均方位移显示出不同于以往研究中观察到的质量特征,在以往研究中,粒子的均方位移随着时间的推移单调地接近稳态值;而在这里,我们发现如果粒子的初始位置离原点足够远,粒子位置的方差要么非单调地变化,要么在达到稳态之前趋于平稳。当粒子速度均匀但翻滚率在空间以阶跃函数变化时,格林函数的精确解定量地捕捉到了这些结果;我们发现这种极限情况提供的启示与一般模型的数值结果是一致的。
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Run-and-tumble particle with saturating rates
We consider a run-and-tumble particle whose speed and tumbling rate are space-dependent on an infinite line. Unlike most of the previous work on such models, here we make the physical assumption that at large distances, these rates saturate to a constant. For our choice of rate functions, we show that a stationary state exists, and the exact steady state distribution decays exponentially or faster and can be unimodal or bimodal. The effect of boundedness of rates is seen in the mean-squared displacement of the particle that displays qualitative features different from those observed in the previous studies where it approaches the stationary state value monotonically in time; in contrast, here we find that if the initial position of the particle is sufficiently far from the origin, the variance in its position either varies nonmonotonically or plateaus before reaching the stationary state. These results are captured quantitatively by the exact solution of the Green's function when the particle has uniform speed but the tumbling rates change as a step-function in space; the insights provided by this limiting case are found to be consistent with the numerical results for the general model.
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