By Michel Mayorf F Pepe C Lovis D Queloz and S UDRY

Observatoire Astronomique de l'Université de Genève, 51 ch. des Maillettes, 1290 Sauverny, Switzerland

The Doppler technique has continuously improved its precision during the past two decades, attaining the level of 1 m s-1. The increasing precision opened the way to the discovery of the first extrasolar planet, and later, to the exploration of a large range of orbital parameters of extrasolar planets. This ability to detect and characterize in great detail companions down to Neptune-mass planets has provided many new and unique inputs for the understanding of planet formation and evolution. In addition, the success of the Doppler technique introduced a great dynamic in the whole domain, allowing the exploration of new possibilities.

Nowadays, the Doppler technique is no longer the only means to discover extrasolar planets. The performance of new instruments, like the High Accuracy Radial-velocity Planet Searcher (HARPS), has shown that the potential of the Doppler technique has not been exhausted; Earth-mass planets are now within reach. In the future, radial velocities will also play a fundamental role in the follow-up and characterization of planets discovered by means of other techniques—for transit candidates, in particular. We think, therefore, that the follow-up of candidates provided by, e.g., the COnvection, ROtation and planetary Transits (COROT) and Kepler space telescopes, will be of primary importance.

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