Self-Gravitating Relativistic Fluids: The Formation of a Free Phase Boundary in the Phase Transition from Hard to Soft

Self-Gravitating Relativistic Fluids: The Formation of a Free Phase Boundary in the Phase Transition from Hard to Soft

In the 1990s Christodoulou introduced an idealized fluid model intended to capture some of the features of the gravitational collapse of a massive star to form a neutron star or a black hole. This was the two-phase model introduced in ‘Self-gravitating relativistic fluids: a two phase model’ (Demete...

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Veröffentlicht in:Archive for rational mechanics and analysis 2016-11, Vol.222 (2), p.927-1010
Hauptverfasser: Christodoulou, Demetrios, Lisibach, André
Format: Artikel
Sprache:eng
Schlagworte:
Arches
Classical Mechanics
Complex Systems
Computational fluid dynamics
Fluid- and Aerodynamics
Fluids
Formations
Gravitation
Gravitational collapse
Massive stars
Mathematical and Computational Physics
Phase boundaries
Phase transformations
Phase transitions
Physics
Physics and Astronomy
Relativism
Relativistic effects
Temperature effects
Theoretical
Two phase
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Beschreibung
Zusammenfassung:In the 1990s Christodoulou introduced an idealized fluid model intended to capture some of the features of the gravitational collapse of a massive star to form a neutron star or a black hole. This was the two-phase model introduced in ‘Self-gravitating relativistic fluids: a two phase model’ (Demeterios, Arch Ration Mech Anal 130:343–400, 1995 ). The present work deals with the formation of a free phase boundary in the phase transition from hard to soft in this model. In this case the phase boundary has corners at the null points; the points which separate the timelike and spacelike components of the interface between the two phases. We prove the existence and uniqueness of a free phase boundary. Also the local form of the shock near the null point is established.
ISSN:0003-9527
1432-0673
DOI:10.1007/s00205-016-1015-x