Abstract

The aim of this manuscript is to study the traversable wormhole (WH) geometries in the curvature matter coupling gravity. We investigate static spherically symmetric Morris-Thorne WHs within the context of gravity. To accomplish this, we examine the WH model in four different cases (i) linear model, with anisotropic matter distribution having the relation p r = mp t (ii) linear model having anisotropic matter distribution along with the equation of state parameter, p r = ω ρ, (iii) non-linear model with specific form of energy density and (iv) non-linear model, with isotropic matter distribution and having the linear relation between pressure and energy density, p = ω ρ. Additionally, in the latter case, we consider a specific power-law shape function . Furthermore, we analyze the energy conditions for each WH model to verify their physical viability. As a novel outcome, we can see the validation of the null energy condition for the model that suggests ruling out the necessity of exotic matter for the traversability of the WH. At last, an embedding diagram for each model is illustrated that describes the WH geometry.

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