Modeling the interactions of biomatter and biofluid

TL;DR

This paper models the interactions between biomatter and biofluid using field theory, unifying various equations of motion like the Sine-Gordon within a single framework, revealing insights into their coupled dynamics.

Contribution

It introduces a novel field-theoretic model coupling biomatter to biofluid, unifying multiple nonlinear equations of motion in a single approach.

Findings

Reproduces Sine-Gordon and other nonlinear equations from the model

Shows the coupling effects between biomatter and biofluid

Provides a unified framework for various equations of motion

Abstract

The internal motions of biomatter immersed in biofluid are investigated. The interactions between the fragments of biomatter and its surrounding biofluid are modeled using field theory. In the model, the biomatter is coupled to the gauge field representing the biofluid. It is shown that at non-relativistic limit various equation of motions, from the well-known Sine-Gordon equation to the simultaneous nonlinear equations, can be reproduced within a single framework.