Open AccessA rigorous examination of the Chandrasekhar theory of stellar collapse
Author(s) -
Élliott H. Lieb,
HorngTzer Yau
Publication year - 1987
Publication title -
the astrophysical journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.376
H-Index - 489
eISSN - 1538-4357
pISSN - 0004-637X
DOI - 10.1086/165813
Subject(s) - chandrasekhar limit , physics , gravitational collapse , gravitation , boson , stars , astrophysics , theoretical physics , mathematical physics , classical mechanics , quantum mechanics , white dwarf
Some of the results of a rigorous analysis of the Chandrasekhar semiclassical theory of stellar collapse are presented here. They are of two kinds. The first concerns the Chandrasekhar equation itself; we prove the uniqueness of the solution and also prove that the solution has certain properties not noted before. The second is a derivation of the Chandrasekhar equation from quantum mechanics (in the limit of small gravitational constant) without making a priori assumptions about the smallness of correlation effects. A parallel derivation is made for stars composed of bosons (such as axion stars, if they are ever found to exist); the resulting equation is quite different from the Chandrasekhar equation, for it is of the Hartree type and involves density gradients.
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