Page "Hipparcos" Paragraph 47

Classical astrometry concerns only motions in the plane of the sky and ignores the star's radial velocity, i. e. its space motion along the line-of-sight.

Whilst critical for an understanding of stellar kinematics, and hence population dynamics, its effect is generally imperceptible to astrometric measurements ( in the plane of the sky ), and therefore it is generally ignored in large-scale astrometric surveys.

In practice, it can be measured as a Doppler shift of the spectral lines.

More strictly, however, the radial velocity does enter a rigorous astrometric formulation.

Specifically, a space velocity along the line-of-sight means that the transformation from tangential linear velocity to ( angular ) proper motion is a function of time.

The resulting effect of secular or perspective acceleration is the interpretation of a transverse acceleration actually arising from a purely linear space velocity with a significant radial component, with the positional effect proportional to the product of the parallax, the proper motion, and the radial velocity.

At the accuracy levels of Hipparcos it is of ( marginal ) importance only for the nearest stars with the largest radial velocities and proper motions, but was accounted for in the 21 cases for which the accumulated positional effect over two years exceeds 0. 1 milliarc-sec.

Radial velocities for Hipparcos Catalogue stars, to the extant that they are presently known from independent ground-based surveys, can be found from the astronomical data base of the Centre de données astronomiques de Strasbourg.