Observation of critical phenomena and self-similarity in the gravitational collapse of radiation fluid
Abstract
We observe critical phenomena in spherical collapse of radiation fluid. A sequence of spacetimes S[η] is numerically computed, containing models (η 1) that adiabatically disperse and models (η 1) that form a black hole. Near the critical point (ηc), evolutions develop a self-similar region within which collapse is balanced by a strong, inward-moving rarefaction wave that holds m(r)/r constant as a function of a self-similar coordinate . The self-similar solution is known and we show near-critical evolutions asymptotically approaching it. A critical exponent β 0.36 is found for supercritical (η>ηc) models.
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