Non-exotic wormholes in f(R,Lm) gravity

Abstract

In the present analysis, we examine the potential existence of generalized wormhole models within the framework of newly developed extended f(R,Lm) gravity. We investigate both a linear model, f(R,Lm)=α R+β Lm, and a non-linear model, f(R,Lm)=R2+ Lαm, to analyze traversable wormholes. By employing the variational approach, we derive modified versions of the field equations under the influence of an anisotropic matter source. A power-law shape function is applied, resulting in a linear equation of state for both radial and lateral pressures. Furthermore, we explore solutions characterized by a variable equation of state parameter. It was observed that the violation of energy conditions is influenced by the parameters α and β. A wide range of non-exotic wormhole solutions was discovered, dependent on the specific parameters of the model. We demonstrate that wormholes with power-law shape functions yield solutions that comply with the energy conditions in both linear and non-linear forms of f(R, Lm). It is shown that the non-exotic wormhole solutions obtained within this framework are not isotropic.

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