Journal of Bioinformatics, Proteomics and Imaging AnalysisJournal of Bioinformatics, Proteomics and Imaging AnalysisJournal of Bioinformatics, Proteomics and Imaging AnalysisJournal of Bioinformatics, Proteomics and Imaging Analysis2381-0793Ommega Online PublishersNew Jersey, USA260910.15436/2476-1869.19.2609Research ArticleThe Non-Equilibrium Statistical Physics of MicrobesThe Non-Equilibrium Statistical Physics of MicrobesPreetSharmaNon-Linear Sciences Research Group Department of Chemistry amp Physics Midwestern State UniversityEditor* E-mail: preet.sharma@msutexas.edu
The authors have declared that no competing interests exist.
20192012201941JBPR-19-RA-260929092019131220192019Creative Commons Attribution LicenseThis is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.The behavior of microbes can be described via the framework of non-equilibrium statistical mechanics as the discontinuous activity is dependent upon on surrounding dynamics which are in turn a function of interactions with the environment Microbial motion is normally understood to be Brownian but to consider how perturbations in the surroundings may affect the variations in the randomness of motion the general case resolves to a special condition of Multi-Fractal Brownian motion Application of Fokker-Planck and Lotka- Volterra expressions results in a qualitative and quantitative understanding In this study we have included the most effective possible mechanisms which can define a complex biological system through physics based approach 10