标题： 复杂性因子在修改引力中带电耗散配置的分析 显示英文标题

标题： Analysis of Complexity Factor for Charged Dissipative Configuration in Modified Gravity

摘要： 在本文中，我们确定了在$f(G,\mathcal{T})$理论背景下的辐射各向异性圆柱几何的复杂性因子的电磁效应。 具有不均匀能量密度、压力各向异性、热通量、电荷和修正项的自引力物体似乎会遇到产生复杂性的阶段。 使用 Herrera 的正交分解方法来识别包含系统所有基本方面的标量函数，该函数被假定为复杂性因子。 我们还通过选择同源模式作为最基本演化模式来研究带电圆柱物质源的演化。 此外，同源和无复杂性条件被用来处理耗散和非耗散情景。 最后，评估了整个演化过程中产生复杂性的参数。 结论是，由于该理论的电荷和修正项的贡献，天体物理实体的复杂性得到了提高。 显示英文摘要

摘要： In this paper, we determine the electromagnetic effects on the complexity factor of radiating anisotropic cylindrical geometry in the background of $f(G,\mathcal{T})$ theory. The self-gravitating objects possessing inhomogeneous energy density, pressure anisotropy, heat flux, charge and correction terms appear to encounter the complexity producing phase. Herrera's orthogonal splitting method is used to identify the scalar functions in which the factor that incorporates all of the fundamental aspects of the system is assumed to be the complexity factor. We also look at the evolution of charged cylindrical matter source by selecting homologous pattern as the most basic evolutionary mode. In addition to this, homologous and complexity free conditions are utilized to address dissipative as well as non-dissipative scenarios. The complexity producing parameters throughout the evolutionary process are assessed at the end. It is concluded that the complexity of the astrophysical entities is elevated due to the contribution of charge and modified terms of this theory.