Bibcode
Lo Curto, Gaspare; Lovis, Christophe; Wilken, Tobias; Avila, Gerardo; Chazelas, Bruno; Esposito, M.; Hänsch, Theodor W.; González-Hernández, J. I.; Holzwarth, Ronald; Ihle, Gerardo; Manescau, Antonio; Pasquini, Luca; Pepe, Francesco; Rebolo, R.; Segovia, Alex; Sinclaire, Peter; Steinmetz, Tilo; Udem, Thomas; Wildi, François
Referencia bibliográfica
Ground-based and Airborne Instrumentation for Astronomy III. Edited by McLean, Ian S.; Ramsay, Suzanne K.; Takami, Hideki. Proceedings of the SPIE, Volume 7735, pp. 77350Z-77350Z-8 (2010).
Fecha de publicación:
7
2010
Número de citas
0
Número de citas referidas
0
Descripción
In the last six years, thanks to the very high radial velocity precision
of the HARPS spectrograph, it was possible to detect 21 out of the 30
super-Earth (extrasolar planets masses below 20 times the mass of the
Earth) discovered up to date. The radial velocity precision of the
instrument is estimated around 80 cm/s on a single measurement. The main
instrumental limitations are the wavelength calibration and the
stability of the light injection. We address both factors and present
the results of recent tests on the HARPS spectrograph. We have
identified the laser frequency comb as the ideal wavelength calibrator,
due to the width, density and flux of the lines, and to its intrinsic
stability. The results from the recent tests that we performed on HARPS
are encouraging. The accurate guiding of the telescope is critical to
maintain a stable light distribution at the injection stage, where the
light is sent into the spectrograph entrance fiber. To pursue this goal
we are testing a secondary guiding system which is able to apply the
guiding corrections twenty times faster than the primary guiding system.