We present a new method for detecting and correcting systematic errors in the distances to stars when both proper motions and line-of-sight velocities are available. The method, which is applicable for samples of 200 or more stars that have a significant extension on the sky, exploits correlations between the measured U, V and W velocity components that are introduced by distance errors. We deliver a formalism to describe and interpret the specific imprints of distance errors including spurious velocity correlations and shifts of mean motion in a sample. We take into account correlations introduced by measurement errors, Galactic rotation and changes in the orientation of the velocity ellipsoid with position in the Galaxy. Tests on pseudoda...
Context. Accurate distances are necessary for determining the physical properties of massive star-fo...
We describe a new cross-correlation (CC) approach used by our survey to derive stellar kinematics fr...
The distance to the Large Magellanic Cloud (LMC) can be directly determined by measuring three of it...
We present a new method for detecting and correcting systematic errors in the distances to stars whe...
We present a new method for detecting and correcting systematic errors in the distances to stars whe...
We apply the statistical methods by Schönrich, Binney & Asplund to assess the quality of distanc...
Errors in the kinematic distances, under the assumption of circular gas orbits, were estimated by pe...
International audienceWe present a new method of bias correction for deriving reliable Tully-Fisher ...
We study Milky Way kinematics using a sample of 18.8 million main-sequence stars with r < 20 and pro...
Line-of-sight velocity distributions are crucial for unravelling the dynamics of hot stellar systems...
A magnitude limited population of 18 808 Hipparcos stars is used to calibrate distances for 52 794 R...
We describe a new cross-correlation (CC) approach used by our survey to derive stellar kinematics fr...
We analyse the kinematics of ~400 000 stars that lie within ̃2 kpc of the Sun and have spectra measu...
We apply the method of Burnett & Binney (2010, MNRAS, 407, 339) for the determination of stellar dis...
We describe a new cross-correlation (CC) approach used by our survey to derive stellar kinematics fr...
Context. Accurate distances are necessary for determining the physical properties of massive star-fo...
We describe a new cross-correlation (CC) approach used by our survey to derive stellar kinematics fr...
The distance to the Large Magellanic Cloud (LMC) can be directly determined by measuring three of it...
We present a new method for detecting and correcting systematic errors in the distances to stars whe...
We present a new method for detecting and correcting systematic errors in the distances to stars whe...
We apply the statistical methods by Schönrich, Binney & Asplund to assess the quality of distanc...
Errors in the kinematic distances, under the assumption of circular gas orbits, were estimated by pe...
International audienceWe present a new method of bias correction for deriving reliable Tully-Fisher ...
We study Milky Way kinematics using a sample of 18.8 million main-sequence stars with r < 20 and pro...
Line-of-sight velocity distributions are crucial for unravelling the dynamics of hot stellar systems...
A magnitude limited population of 18 808 Hipparcos stars is used to calibrate distances for 52 794 R...
We describe a new cross-correlation (CC) approach used by our survey to derive stellar kinematics fr...
We analyse the kinematics of ~400 000 stars that lie within ̃2 kpc of the Sun and have spectra measu...
We apply the method of Burnett & Binney (2010, MNRAS, 407, 339) for the determination of stellar dis...
We describe a new cross-correlation (CC) approach used by our survey to derive stellar kinematics fr...
Context. Accurate distances are necessary for determining the physical properties of massive star-fo...
We describe a new cross-correlation (CC) approach used by our survey to derive stellar kinematics fr...
The distance to the Large Magellanic Cloud (LMC) can be directly determined by measuring three of it...