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. Iranian Journal of Physics Research. 2025;24(4):457-465 (In Persian). doi: 10.47176/ijpr.24.4.81964