AbstractA variational method is used to study the shape of a self-gravitating fluid mass rotating with a prescribed angular momentum per unit mass. The model is of primary interest in astrophysics, where it is taken as a model of a star. Sharp estimates are obtained on the diameter of the rotating body in terms of the total mass M and parameter Q = TW; T and W represent, respectively, the kinetic and potential energy. The cases of Q small (slowly rotating body) and Q large (rapidly rotating body) are dealt with separately
The current paper is aimed at getting more insight on three main points concerning large-scale astro...
11 pages, Tex version of manuscript originally distributed with restricted circulation in Journees R...
A functional method developed for analyzing rotating self-gravitating fluid is discussed in relation...
AbstractA variational method is used to study the shape of a self-gravitating fluid mass rotating wi...
AbstractThe equations for axisymmetric self-gravitating rotating fluid have been studied extensively...
AbstractIn this paper we classify the free boundary associated to equilibrium configurations of comp...
In this paper, we study the steady solutions of Euler-Poisson equations in bounded domains with pres...
Abstract. The existence of solutions of the equations for a self-gravitating fluid with prescribed a...
A theory of collisionless fluids is developed in a unified picture, where nonrotating (?f1 = ?f2 = ?...
We obtain an approximate global stationary and axisymmetric solution of Einstein's equations which c...
The self-similar equilibrium models of self-gravitating, rotating, isothermal systems are investigat...
Abstract. In this paper we classify the free boundary associated to equilib-rium configurations of c...
We prove existence of rotating star solutions which are steady-state solutions of the compressible i...
AbstractIn this paper, minimization problems in L1(R3) are considered. These problems arise in astro...
We consider a classical problem of stability of equilibrium figures of a liquid rotating uniformly a...
The current paper is aimed at getting more insight on three main points concerning large-scale astro...
11 pages, Tex version of manuscript originally distributed with restricted circulation in Journees R...
A functional method developed for analyzing rotating self-gravitating fluid is discussed in relation...
AbstractA variational method is used to study the shape of a self-gravitating fluid mass rotating wi...
AbstractThe equations for axisymmetric self-gravitating rotating fluid have been studied extensively...
AbstractIn this paper we classify the free boundary associated to equilibrium configurations of comp...
In this paper, we study the steady solutions of Euler-Poisson equations in bounded domains with pres...
Abstract. The existence of solutions of the equations for a self-gravitating fluid with prescribed a...
A theory of collisionless fluids is developed in a unified picture, where nonrotating (?f1 = ?f2 = ?...
We obtain an approximate global stationary and axisymmetric solution of Einstein's equations which c...
The self-similar equilibrium models of self-gravitating, rotating, isothermal systems are investigat...
Abstract. In this paper we classify the free boundary associated to equilib-rium configurations of c...
We prove existence of rotating star solutions which are steady-state solutions of the compressible i...
AbstractIn this paper, minimization problems in L1(R3) are considered. These problems arise in astro...
We consider a classical problem of stability of equilibrium figures of a liquid rotating uniformly a...
The current paper is aimed at getting more insight on three main points concerning large-scale astro...
11 pages, Tex version of manuscript originally distributed with restricted circulation in Journees R...
A functional method developed for analyzing rotating self-gravitating fluid is discussed in relation...