Energy Conditions and Stability of Charged Wormholes in $f(R, \mathscr{L}_m)$ Gravity: A Comparative Analysis with Compact Objects

TL;DR

This document presents the elsarticle.cls LaTeX class, a rewritten format for preparing Elsevier submissions. It details the class’s dependencies, frontmatter support, and layout options, emphasizing compatibility with common packages and options for preprint and final styles. It contrasts elsarticle.cls with the older elsart.cls, highlighting improvements in package clash minimization, formatting flexibility, and integration with natbib and hyperref. Installation guidance from Elsevier resources and CTAN is provided, including how to generate elsarticle.cls from the source and update the TeX filename database. Overall, the class aims to streamline manuscript preparation and ensure consistent formatting across journals.

Abstract

In this paper, we study the energy conditions of charged traversable wormholes in the framework of $f(R, \mathscr{L}_m)$ modified gravity. In the first case, we derive the shape functions (SFs) for two different choices of the charge function $\mathcal{E}^2$ by considering the Exponential Spheroid (ES) model and analyze the null energy condition (NEC). In the second case, we consider a particular shape function and study its implications for the energy conditions. In both cases, we obtain expressions for energy density and pressure in radial and tangential directions. Our findings show that the radial NEC remains satisfied across a wide range of charge parameters $\mathcal{E}$ consistent with established physical laws. However, the tangential NEC is only sustained in the range $0.1 \leq \mathcal{E} \leq 0.6$; for higher charge values, violations occur, indicating the formation of a throat-like structure necessary for wormhole stability. Additionally, we compare the pressure-density profiles of these charged wormholes with those of compact objects such as neutron stars, revealing distinct variations in matter distribution. This analysis highlights the crucial role of charge and modified gravity in determining the stability and physical characteristics of wormhole structures.