Line-of-sight velocity distributions are crucial for unravelling the dynamics of hot stellar systems. We present a new formalism based on penalized likelihood for deriving such distributions from kinematical data, and evaluate the performance of two algorithms that extract N(V) from absorption-line spectra and from sets of individual velocities. Both algorithms are superior to existing ones in that the solutions are nearly unbiased even when the data are so poor that a great deal of smoothing is required. In addition, the discrete-velocity algorithm is able to remove a known distribution of measurement errors from the estimate of N(V). The formalism is used to recover the velocity distribution of stars in five fields near the center of the ...
We show that a regression of unsmoothed peculiar velocity measurements against peculiar velocities p...
Context. The velocity distribution of stars in the solar neighbourhood is inhomogeneous and rich wit...
We present a new method for detecting and correcting systematic errors in the distances to stars whe...
Aims. The study of accurate methods to estimate the distribution of stellar rotational velocities is...
Estimation of the distribution function f and potential Phi of hot stellar systems from kinematical ...
[abridged] A "missing data" algorithm is developed to model (ie, reconstruct) the three-dimensional ...
Aims. Knowing the distribution of stellar rotational velocities is essential for understanding stell...
From the tangential velocities of stars all over the sky, one can, in a statistical way, infer their...
The velocity distributions of stellar tracers in general exhibit weak non-Gaussianity encoding infor...
Gravitational acceleration fields can be deduced from the collisionless Boltzmann equation, once the...
An analytical model based on the maximum entropy approach is proposed to describe the eventual asymm...
We test a new approach to calculate the mean velocity and velocity dispersion for a sample of nearby...
We introduce two new methods to obtain reliable velocity field statistics from N-body simulations, o...
We present a new method for detecting and correcting systematic errors in the distances to stars whe...
Context. We present the largest catalog of detailed stellar kinematics of the central part...
We show that a regression of unsmoothed peculiar velocity measurements against peculiar velocities p...
Context. The velocity distribution of stars in the solar neighbourhood is inhomogeneous and rich wit...
We present a new method for detecting and correcting systematic errors in the distances to stars whe...
Aims. The study of accurate methods to estimate the distribution of stellar rotational velocities is...
Estimation of the distribution function f and potential Phi of hot stellar systems from kinematical ...
[abridged] A "missing data" algorithm is developed to model (ie, reconstruct) the three-dimensional ...
Aims. Knowing the distribution of stellar rotational velocities is essential for understanding stell...
From the tangential velocities of stars all over the sky, one can, in a statistical way, infer their...
The velocity distributions of stellar tracers in general exhibit weak non-Gaussianity encoding infor...
Gravitational acceleration fields can be deduced from the collisionless Boltzmann equation, once the...
An analytical model based on the maximum entropy approach is proposed to describe the eventual asymm...
We test a new approach to calculate the mean velocity and velocity dispersion for a sample of nearby...
We introduce two new methods to obtain reliable velocity field statistics from N-body simulations, o...
We present a new method for detecting and correcting systematic errors in the distances to stars whe...
Context. We present the largest catalog of detailed stellar kinematics of the central part...
We show that a regression of unsmoothed peculiar velocity measurements against peculiar velocities p...
Context. The velocity distribution of stars in the solar neighbourhood is inhomogeneous and rich wit...
We present a new method for detecting and correcting systematic errors in the distances to stars whe...