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Abstract In this manuscript, we examine geometrical and physical properties of wormhole (WH W H) solutions with monopole charge by considering three distinct shape function models in power-law gravity, i. e. , Starobinsky f (R) gravity, where R is Ricci scalr. The modified gravitational field equations are solved under the assumption of anisotropic energy–momentum tensor (EMT EMT), with particular attention given to the role of exotic matter (EM E M) in sustaining these solutions. The impact of the global monopole charge (GMC GMC) is examined in detail, revealing that higher monopole charges enlarge the throat radius and produce flatter embedding surfaces through two and three dimensional embedding diagrams, thereby affecting both traversability and structural stability. A comprehensive investigation of physical quantities, energy conditions and stability analysis is carried out using several physical and geometrical criteria, including the adiabatic index approach, Herrera’s cracking criterion, and causality conditions approach, along with anisotropic effects. Moreover, the total amount of EM E M is quantified through the volume integral quantifier method. These findings highlight supportive directions for future explorations of exotic spacetime structures in both theoretical and astrophysical contexts.
Yousaf et al. (Tue,) studied this question.
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