Browsing by Subject "Microorganisms"
Now showing items 1-4 of 4
-
Classical Electrodynamics and Green Functions with the Keller-Segel Equation
(Institute of Electrical and Electronics Engineers, 2020-12-16)Acceso restringidoBacteria can transport a well defined electric charge so that one can expect electrical interactions with different biochemical compounds in order to optimize their colonization in healthy hosts. This paper focuses on the ... -
Modeling Accelerated Growth of Bacteria Population Through Feynman Diagrams
(Institute of Electrical and Electronics Engineers, 2019-11)Acceso restringidoIn Quantum Physics normally the well-known Feynman Diagrams are used to calculate transition probabilities by which we can estimate predictions as to the expected measurement of a certain physical variables. In this paper ... -
Nanodevices Versus Bacteria in a Box: The Correspondence between Classical Electrodynamics and the Quantum Mechanics Path Integral
(Institute of Electrical and Electronics Engineers, 2019-11)Acceso restringidoWe use the Quantum Mechanics path integral to describe bacteria spatial dynamics inside a box that that is limited by constant electric potentials. While this potential can be materialized to some extent of being a physical ... -
The Input-Output Approach in Semiclassical Electrodynamics of Keller-Segel Equation
(Institute of Electrical and Electronics Engineers, 2020-11-11)Acceso restringidoWhen the Keller-Segel equation is treated in a semiclassical scenario of electrodynamics involving Quantum Mechanics measurements, it is possible to implement the formalism of input-output in a nature manner without ...
