Bacteria can move for various reasons, including in response to chemical stimuli in the environment. In this article, we model the movement patterns of a typical bacteria in the form of a discrete-time Markov chain in one dimension (one-dimensional running and tumble model). Then with the help of the large deviation theory, the behavior of the probability density function of current (displacement per unit time), as a dynamical variable that is defined on the moving path, is studied. We will show that it is possible to observe a dynamical phase transition in the system.
Jafarpour Hamadani,F. and Namvar,M. (2025). Large deviation theory and the dynamics of a bacterium. Iranian Journal of Physics Research, 24(4), 457-465. doi: 10.47176/ijpr.24.4.81964
MLA
Jafarpour Hamadani,F. , and Namvar,M. . "Large deviation theory and the dynamics of a bacterium", Iranian Journal of Physics Research, 24, 4, 2025, 457-465. doi: 10.47176/ijpr.24.4.81964
HARVARD
Jafarpour Hamadani F., Namvar M. (2025). 'Large deviation theory and the dynamics of a bacterium', Iranian Journal of Physics Research, 24(4), pp. 457-465. doi: 10.47176/ijpr.24.4.81964
CHICAGO
F. Jafarpour Hamadani and M. Namvar, "Large deviation theory and the dynamics of a bacterium," Iranian Journal of Physics Research, 24 4 (2025): 457-465, doi: 10.47176/ijpr.24.4.81964
VANCOUVER
Jafarpour Hamadani F., Namvar M. Large deviation theory and the dynamics of a bacterium. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2025; 24(4): 457-465. doi: 10.47176/ijpr.24.4.81964
