M. Zubair scite author profile

A non-equilibrium picture of thermodynamics is discussed at the apparent horizon of FRW universe in f (R, T ) gravity, where R is the Ricci scalar and T is the trace of the energy-momentum tensor. We take two forms of the energy-momentum tensor of dark components and demonstrate that equilibrium description of thermodynamics is not achievable in both cases. We check the validity of the first and second law of thermodynamics in this scenario. It is shown that the Friedmann equations can be expressed in the form of first law of thermodynamicsis the entropy production term. Finally, we conclude that the second law of thermodynamics holds both in phantom and non-phantom phases.

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Static spherically symmetric wormholes in f(R, T) gravity

Zubair

2016

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In this work, we explore wormhole solutions in f (R, T ) theory of gravity, where R is the scalar curvature and T is the trace of stress-energy tensor of matter. To investigate this, we consider a static spherically symmetric geometry with matter contents as anisotropic, isotropic, and barotropic fluids in three separate cases. By taking into account the Starobinsky f (R) model, we analyze the behavior of energy conditions for these different kinds of fluids. It is shown that the wormhole solutions can be constructed without exotic matter in few regions of space-time. We also give the graphical illustration of the results obtained and discuss the equilibrium picture for the anisotropic case only. It is concluded that the wormhole solutions with anisotropic matter are realistic and stable in this theory of gravity.

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Thermodynamics and cosmological reconstruction inf(T,B)gravity

Bahamonde

Zubair

Abbas

2018

Physics of the Dark Universe

125

105

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Energy conditions in f (R, T, R μν T μν ) gravity

Sharif

Zubair

2013

J. High Energ. Phys.

125

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Energy Conditions Constraints and Stability of Power Law Solutions inf(R,T) Gravity

2013

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M. Zubair

Thermodynamics inf(R,T) theory of gravity

Static spherically symmetric wormholes in f(R, T) gravity

Thermodynamics and cosmological reconstruction inf(T,B)gravity

Energy conditions in f (R, T, R μν T μν ) gravity

Energy Conditions Constraints and Stability of Power Law Solutions inf(R,T) Gravity

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