Development of complexity induced frameworks for charged cylindrical polytropes

TL;DR

This paper develops new complexity-based frameworks for analyzing charged cylindrical polytropes, introducing a methodology to generate differential equations and providing graphical analysis of the models.

Contribution

It introduces a novel complexity factor approach for charged cylindrical polytropes, expanding the theoretical modeling of such systems.

Findings

New differential equation sets derived from complexity factors

Graphical analysis illustrating model behaviors

Frameworks applicable to charged anisotropic fluids

Abstract

The main theme of this work is the development of complexity induced generalized frameworks for static cylindrical polytropes. We consider two different definitions of generalized polytopes with charged anisotropic inner fluid distribution. A new methodology based on complexity factor for the generation of consistent sets of differential equations will be presented. We conclude our work by carrying out graphical analysis of developed frameworks.