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A plane-symmetric magnetized inhomogeneous cosmological models of perfect fluid distribution with variable magnetic permeability in Lyra geometry. (English) Zbl 1187.83063

Summary: A plane-symmetric magnetized inhomogeneous cosmological model of the universe with time dependent gauge function \(\beta \) for perfect fluid distribution with variable magnetic permeability within the framework of Lyra geometry is investigated. The source of the magnetic field is due to an electric current produced along the \(z\)-axis. Thus \(F _{12}\) is the only non-vanishing component of electromagnetic field tensor \(F _{ij }\). To get a deterministic solution of Einstein’s modified field equations, the free gravitational field is assumed to be Petrov type-II non-degenerate. For our derived model we obtain the deceleration parameter \(q= - 1\) as in the case of de Sitter universe. It has been found that the displacement vector \(\beta (t)\) behaves like cosmological term \(\Lambda \) in the normal gauge treatment and the solution is consistent with the observations. The displacement vector \(\beta (t)\) affects entropy. Some physical and geometric properties of the model are also discussed.

MSC:

83D05 Relativistic gravitational theories other than Einstein’s, including asymmetric field theories
83F05 Relativistic cosmology
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