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Higher-dimensional inhomogeneous composite fluids: energy conditions

Byron P. Brassel, Sunil D. Maharaj, Rituparno Goswami

2021Progress of Theoretical and Experimental Physics43 citationsDOIOpen Access PDF

Abstract

Abstract The energy conditions are studied, in the relativistic astrophysical setting, for higher-dimensional Hawking–Ellis Type I and Type II matter fields. The null, weak, dominant and strong energy conditions are investigated for a higher-dimensional inhomogeneous, composite fluid distribution consisting of anisotropy, shear stresses, non-vanishing viscosity as well as a null dust and null string energy density. These conditions are expressed as a system of six equations in the matter variables where the presence of the higher dimension $N$ is explicit. The form and structure of the energy conditions is influenced by the geometry of the $(N-2)$-sphere. The energy conditions for the higher-dimensional Type II fluid are also generated, and it is shown that under certain restrictions the conditions for a Type I fluid are regained. All previous treatments for four dimensions are contained in our work.

Topics & Concepts

PhysicsEnergy conditionNull (SQL)Work (physics)AnisotropyEnergy densityMathematical physicsType (biology)String (physics)Classical mechanicsQuantum mechanicsTheoretical physicsBiologyGeneral relativityComputer scienceDatabaseEcologyCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsAdvanced Differential Geometry Research
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