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Title: | Phase segregation and spontaneous symmetry breaking in a bidirectional two-channel non-conserving model with narrow entrances |
Authors: | Sharma, N. Gupta, A. K. |
Keywords: | driven diusive systems trac models molecular motors exclusion processes |
Issue Date: | 10-Oct-2021 |
Abstract: | Motivated by connections between the inputs and outputs of several transport mechanisms and multi-species functionalities, we studied an open system of a two-species totally asymmetric simple exclusion process with narrow entrances, which assimilate the synergy of the particles with the surrounding environment through Langmuir kinetics (LK). We analyzed the model within the framework of mean-field theory, and examined complex phenomena such as boundary-induced phase transitions and spontaneous symmetry breaking for variant conditions of attachment and detachment rates. Based on the theoretical investigations we obtained the phase boundaries for various symmetric and asymmetric phases. Our finding displays a prolific behavior, highlighting the significant eect of LK rates on symmetry breaking. It is found that for lower orders of LK rates, the number of symmetrical and asymmetrical phases increases notably, while for their higher orders symmetry breaking disappears, revealing that the presence of bulk non-conserving processes can resume/break the uniformity between two species. The critical value of LK rates beyond which the asymmetrical phases disappears is identified. The theoretical findings are explored by extensive Monte Carlo simulations. The eect of the system size and symmetry breaking incident on the Monte Carlo simulation results has also been examined based on particle density histograms. |
URI: | http://localhost:8080/xmlui/handle/123456789/2981 |
Appears in Collections: | Year-2017 |
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