http://arxiv.org/abs/2102.11550
Motivated by the astrophysical problems of star formations from molecular clouds, we make the first step on the possible behaviors of certain molecular clouds. This article $(1)$ establishes the diffuse boundary problem of Euler-Poisson system for describing the evolution of molecular clouds; $(2)$ proves the local existence, uniqueness and continuation principle of the classical solution to the diffuse boundary problem; $(3)$ proves the classical solution (without any symmetry condition) to the diffuse problem blows up at finite time if there is no the first class of global solution and the data is admissible (large scale, irregularly-shaped, expanding and rotational molecular clouds); $(4)$ proves certain singularities can be removed from the boundary if the data is strongly admissible. This result partially answers Makino’s conjecture $[69]$ on the finite blowup of any tame solution without symmetries and gives the possibilities of star formations, fragmentation and possibilities of formations of shocks and physical vacuum boundary in perfect fluids with Newtonian self-gravity.
C. Liu
Wed, 24 Feb 21
40/64
Comments: 96 pages