Department of Protein Chemistry and Technology, CSIR-Central Food Technological Research Institute, Mysore-570 020, India.
Phys Rev E. 2018 Mar;97(3-1):032130. doi: 10.1103/PhysRevE.97.032130.
In this paper, we study a one-dimensional totally asymmetric simple exclusion process with position-dependent hopping rates. Under open boundary conditions, this system exhibits boundary-induced phase transitions in the steady state. Similarly to totally asymmetric simple exclusion processes with uniform hopping, the phase diagram consists of low-density, high-density, and maximal-current phases. In various phases, the shape of the average particle density profile across the lattice including its boundary-layer parts changes significantly. Using the tools of boundary-layer analysis, we obtain explicit solutions for the density profile in different phases. A detailed analysis of these solutions under different boundary conditions helps us obtain the equations for various phase boundaries. Next, we show how the shape of the entire density profile including the location of the boundary layers can be predicted from the fixed points of the differential equation describing the boundary layers. We discuss this in detail through several examples of density profiles in various phases. The maximal-current phase appears to be an especially interesting phase where the boundary layer flows to a bifurcation point on the fixed-point diagram.
在本文中,我们研究了一维具有位置相关跃迁率的完全非对称简单排斥过程。在开放边界条件下,该系统在稳态下表现出边界诱导的相变。与具有均匀跃迁的完全非对称简单排斥过程类似,相图由低密度、高密度和最大电流相组成。在不同的相中,晶格中平均粒子密度分布的形状(包括其边界层部分)发生了显著变化。我们使用边界层分析工具,获得了不同相中密度分布的显式解。对不同边界条件下这些解的详细分析有助于我们获得各种相界的方程。接下来,我们展示了如何从描述边界层的微分方程的平衡点来预测整个密度分布的形状,包括边界层的位置。我们通过各种相中的密度分布的几个例子详细讨论了这一点。最大电流相似乎是一个特别有趣的相,其中边界层流向固定点图上的分叉点。