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arxiv: gr-qc/0207120 · v2 · submitted 2002-07-30 · 🌀 gr-qc

A Classification of Spherically Symmetric Kinematic Self-Similar Perfect-Fluid Solutions

classification 🌀 gr-qc
keywords solutionskinematicself-similarequationfindfluidperfect-fluidpolytropic
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We classify all spherically symmetric spacetimes admitting a kinematic self-similar vector of the second, zeroth or infinite kind. We assume that the perfect fluid obeys either a polytropic equation of state or an equation of state of the form $p=K\mu$, where $p$ and $\mu$ are the pressure and the energy density, respectively, and $K$ is a constant. We study the cases in which the kinematic self-similar vector is not only ``tilted'' but also parallel or orthogonal to the fluid flow. We find that, in contrast to Newtonian gravity, the polytropic perfect-fluid solutions compatible with the kinematic self-similarity are the Friedmann-Robertson-Walker solution and general static solutions. We find three new exact solutions which we call the dynamical solutions (A) and (B) and $\Lambda$-cylinder solution, respectively.

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