Aims. The study of accurate methods to estimate the distribution of stellar rotational velocities is important for understanding many aspects of stellar evolution. From such observations we obtain the projected rotational speed (v sin i) in order to recover the true distribution of the rotational velocity. To that end, we need to solve a difficult inverse problem that can be posed as a Fredholm integral of the first kind. Methods. In this work we have used a novel approach based on maximum likelihood (ML) estimation to obtain an approximation of the true rotational velocity probability density function (PDF) expressed as a sum of known distribution families. In our proposal, the measurements have been treated as random variables drawn from ...
Aims. Projected rotational velocities (vesini) have been estimated for 334 tar...
An analytical model based on the maximum entropy approach is proposed to describe the eventual asymm...
Context. Among intermediate-mass and massive stars, Be stars are the fastest rotators in the main se...
Aims. The study of accurate methods to estimate the distribution of stellar rotational velocities is...
Aims. Knowing the distribution of stellar rotational velocities is essential for understanding stell...
Line-of-sight velocity distributions are crucial for unravelling the dynamics of hot stellar systems...
International audienceAims:A sample of v sin i of B9 to F2-type main sequence single stars has been ...
An analytical model based on the maximum entropy approach is proposed to describe the eventual asymm...
Context. Among intermediate-mass and massive stars, Be stars are the fastest rotators in t...
Aims. A sample of v sin i of B9 to F2-type main sequence single stars has been built from highly hom...
Context. Among intermediate-mass and massive stars, Be stars are the fastest rotators in the main se...
The maximum entropy approach is used to solve the classical moment problem of stellar kinematics. If...
Aims.A sample of $v\sin i$ of B9 to F2-type main sequence single stars has been built from highly ho...
We introduce a new method for estimating the value of the expansion scalar #theta# triple bond H&quo...
In this Thesis, we analyzed the formation of maxwellian tails of the distributions of the rotational...
Aims. Projected rotational velocities (vesini) have been estimated for 334 tar...
An analytical model based on the maximum entropy approach is proposed to describe the eventual asymm...
Context. Among intermediate-mass and massive stars, Be stars are the fastest rotators in the main se...
Aims. The study of accurate methods to estimate the distribution of stellar rotational velocities is...
Aims. Knowing the distribution of stellar rotational velocities is essential for understanding stell...
Line-of-sight velocity distributions are crucial for unravelling the dynamics of hot stellar systems...
International audienceAims:A sample of v sin i of B9 to F2-type main sequence single stars has been ...
An analytical model based on the maximum entropy approach is proposed to describe the eventual asymm...
Context. Among intermediate-mass and massive stars, Be stars are the fastest rotators in t...
Aims. A sample of v sin i of B9 to F2-type main sequence single stars has been built from highly hom...
Context. Among intermediate-mass and massive stars, Be stars are the fastest rotators in the main se...
The maximum entropy approach is used to solve the classical moment problem of stellar kinematics. If...
Aims.A sample of $v\sin i$ of B9 to F2-type main sequence single stars has been built from highly ho...
We introduce a new method for estimating the value of the expansion scalar #theta# triple bond H&quo...
In this Thesis, we analyzed the formation of maxwellian tails of the distributions of the rotational...
Aims. Projected rotational velocities (vesini) have been estimated for 334 tar...
An analytical model based on the maximum entropy approach is proposed to describe the eventual asymm...
Context. Among intermediate-mass and massive stars, Be stars are the fastest rotators in the main se...