Add to ORKGIn this thesis, we study slowly rotating relativistic stars by modeling them as perfect fluids. The Hartle formalism is used to perturb a spherically symmetric static solution into slow rotation and the corresponding field equations to second order are presented. Five of the seven equations form a subsystem that decouples and can thus be solved independently. It is solely this system we focus on in this work. Two new variables are introduced to rewrite the field equations such that they become algebraic in one of the variables, the other one is used as a generating function and can be chosen to generate desired perfect fluid configurations. To adapt for numerical integration, the field equations are further reformulated as a coupled system ...
We have developed a theoretical model and a numerical code for stationary rotating superfluid neutro...
International audienceWe present results for 2-dimensional models of rapidly rotating main sequence ...
International audienceWe have developed a theoretical model and a numerical code for stationary rota...
This PhD thesis is devoted to the study of the non-radial oscillations of slowly rotating neutron st...
The second order perturbative field equations for slowly and rigidly rotating perfect fluid balls of...
We compare three different models of rotating neutron star spacetimes: the Hartle-Thorne (HT) slow-r...
Slowly rotating perfect fluid balls with regular center and asymptotically flat exterior are conside...
We study stationary axisymmetric configurations of a star model consisting of two barotropic fluids,...
In the framework of general relativity, a description of the matching conditions between two rotatin...
We study stationary axisymmetric configurations of a star model consisting of two barotropic fluids,...
We obtain an approximate global stationary and axisymmetric solution of Einstein's equations which c...
We present a general formalism to treat slowly rotating general relativistic superfluid neutron star...
In this Thesis, we study the dynamics of rotating relativistic stars. We are mainly interested in th...
We construct models of rotating stars using the perturbative approach introduced by J. Hartle in 196...
This study examines the relativistic models for compact stars in equilibrium between the compressive...
We have developed a theoretical model and a numerical code for stationary rotating superfluid neutro...
International audienceWe present results for 2-dimensional models of rapidly rotating main sequence ...
International audienceWe have developed a theoretical model and a numerical code for stationary rota...
This PhD thesis is devoted to the study of the non-radial oscillations of slowly rotating neutron st...
The second order perturbative field equations for slowly and rigidly rotating perfect fluid balls of...
We compare three different models of rotating neutron star spacetimes: the Hartle-Thorne (HT) slow-r...
Slowly rotating perfect fluid balls with regular center and asymptotically flat exterior are conside...
We study stationary axisymmetric configurations of a star model consisting of two barotropic fluids,...
In the framework of general relativity, a description of the matching conditions between two rotatin...
We study stationary axisymmetric configurations of a star model consisting of two barotropic fluids,...
We obtain an approximate global stationary and axisymmetric solution of Einstein's equations which c...
We present a general formalism to treat slowly rotating general relativistic superfluid neutron star...
In this Thesis, we study the dynamics of rotating relativistic stars. We are mainly interested in th...
We construct models of rotating stars using the perturbative approach introduced by J. Hartle in 196...
This study examines the relativistic models for compact stars in equilibrium between the compressive...
We have developed a theoretical model and a numerical code for stationary rotating superfluid neutro...
International audienceWe present results for 2-dimensional models of rapidly rotating main sequence ...
International audienceWe have developed a theoretical model and a numerical code for stationary rota...