Spherically symmetric isothermal fluids in f(R, T) gravity

We analyze the isothermal property in static fluid spheres within the framework of the modified f ( R , T ) theory of gravitation. The equation of pressure isotropy of the standard Einstein theory is preserved however, the energy density and pressure are expressed in terms of both gravitational pot...

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Published in	The European physical journal. C, Particles and fields Vol. 78; no. 9; pp. 1 - 8
Main Author	Hansraj, Sudan
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.09.2018 Springer Springer Nature B.V SpringerOpen
Subjects	Analysis Astronomy Astrophysics and Cosmology Computational fluid dynamics Density Elementary Particles Equations of state Flux density Gravitation Gravity (Force) Hadrons Heavy Ions Hyperspaces Isotropy Measurement Science and Instrumentation Nuclear Energy Nuclear Physics Physics Physics and Astronomy Quantum Field Theories Quantum Field Theory Regular Article - Theoretical Physics Relativity Stress concentration String Theory
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Abstract	We analyze the isothermal property in static fluid spheres within the framework of the modified f ( R , T ) theory of gravitation. The equation of pressure isotropy of the standard Einstein theory is preserved however, the energy density and pressure are expressed in terms of both gravitational potentials. Invoking the isothermal prescription requires that the isotropy condition assumes the role of a consistency condition and an exact model generalizing that of general relativity is found. Moreover it is found that the Einstein model is unstable and acausal while the f ( R , T ) counterpart is well behaved on account of the freedom available through an additional coupling constant. The case of a constant spatial gravitational potential is considered and the complete model is determined. This model is markedly different from its Einstein counterpart which is known to be isothermal. Dropping the restriction on the density and imposing a linear barotropic equation of state generates an exact solution and consequently a stellar distribution as the vanishing of the pressure is possible and a boundary hypersurface exists. Finally we comment on the case of relaxing the equation of state but demanding an inverse square fall-off of the density – this case proves intractable.
AbstractList	We analyze the isothermal property in static fluid spheres within the framework of the modified f ( R , T ) theory of gravitation. The equation of pressure isotropy of the standard Einstein theory is preserved however, the energy density and pressure are expressed in terms of both gravitational potentials. Invoking the isothermal prescription requires that the isotropy condition assumes the role of a consistency condition and an exact model generalizing that of general relativity is found. Moreover it is found that the Einstein model is unstable and acausal while the f ( R , T ) counterpart is well behaved on account of the freedom available through an additional coupling constant. The case of a constant spatial gravitational potential is considered and the complete model is determined. This model is markedly different from its Einstein counterpart which is known to be isothermal. Dropping the restriction on the density and imposing a linear barotropic equation of state generates an exact solution and consequently a stellar distribution as the vanishing of the pressure is possible and a boundary hypersurface exists. Finally we comment on the case of relaxing the equation of state but demanding an inverse square fall-off of the density – this case proves intractable. We analyze the isothermal property in static fluid spheres within the framework of the modified f(R, T) theory of gravitation. The equation of pressure isotropy of the standard Einstein theory is preserved however, the energy density and pressure are expressed in terms of both gravitational potentials. Invoking the isothermal prescription requires that the isotropy condition assumes the role of a consistency condition and an exact model generalizing that of general relativity is found. Moreover it is found that the Einstein model is unstable and acausal while the f(R, T) counterpart is well behaved on account of the freedom available through an additional coupling constant. The case of a constant spatial gravitational potential is considered and the complete model is determined. This model is markedly different from its Einstein counterpart which is known to be isothermal. Dropping the restriction on the density and imposing a linear barotropic equation of state generates an exact solution and consequently a stellar distribution as the vanishing of the pressure is possible and a boundary hypersurface exists. Finally we comment on the case of relaxing the equation of state but demanding an inverse square fall-off of the density – this case proves intractable. Abstract We analyze the isothermal property in static fluid spheres within the framework of the modified f(R, T) theory of gravitation. The equation of pressure isotropy of the standard Einstein theory is preserved however, the energy density and pressure are expressed in terms of both gravitational potentials. Invoking the isothermal prescription requires that the isotropy condition assumes the role of a consistency condition and an exact model generalizing that of general relativity is found. Moreover it is found that the Einstein model is unstable and acausal while the f(R, T) counterpart is well behaved on account of the freedom available through an additional coupling constant. The case of a constant spatial gravitational potential is considered and the complete model is determined. This model is markedly different from its Einstein counterpart which is known to be isothermal. Dropping the restriction on the density and imposing a linear barotropic equation of state generates an exact solution and consequently a stellar distribution as the vanishing of the pressure is possible and a boundary hypersurface exists. Finally we comment on the case of relaxing the equation of state but demanding an inverse square fall-off of the density – this case proves intractable.
ArticleNumber	700
Audience	Academic
Author	Hansraj, Sudan
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Snippet	We analyze the isothermal property in static fluid spheres within the framework of the modified f ( R , T ) theory of gravitation. The equation of pressure... We analyze the isothermal property in static fluid spheres within the framework of the modified f(R, T) theory of gravitation. The equation of pressure... Abstract We analyze the isothermal property in static fluid spheres within the framework of the modified f(R, T) theory of gravitation. The equation of...
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SubjectTerms	Analysis Astronomy Astrophysics and Cosmology Computational fluid dynamics Density Elementary Particles Equations of state Flux density Gravitation Gravity (Force) Hadrons Heavy Ions Hyperspaces Isotropy Measurement Science and Instrumentation Nuclear Energy Nuclear Physics Physics Physics and Astronomy Quantum Field Theories Quantum Field Theory Regular Article - Theoretical Physics Relativity Stress concentration String Theory
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Title	Spherically symmetric isothermal fluids in f(R, T) gravity
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