L. Mignon, X. Delfosse, N. Meunier, G. Chaverot, R. P. Milburn, X. Bonfils, F. Bouchy, N. Astudillo-Defru, G. Lo Curto, G. Gaisne, S. Udry, T. Forveille, D. Segransan, C. Lovis, N. C. Santos, M. Mayor
Abstract
Aims. We aim to re-determine planetary occurrences around M dwarfs using 20 years of observations from HARPS on 197 targets. The first aim of this study is to propose more precise occurrence rates using the large volume of the sample but also variations to previous calculations, particularly by considering multiplicity, which is now an integral part of planetary occurrence calculations. The second aim is to exploit the extreme longevity of HARPS to determine occurrence rates in the unexplored domain of very long periods. Methods. This work relied entirely on the 197 radial-velocity time series obtained and analysed in our previous study. By considering they are cleaned of any detectable signal, we convert them into detection limits. We used these 197 limits to produce a detectability map and combined it with confirmed planet detections to establish our occurrence rates. Finally, we converted the detection limits from orbital period to insolation in order to construct an occurrence statistics for the temperate zone. Results. We find a strong prevalence of low-mass planets around M dwarfs, with an occurrence rate of 120% for planets with a mass between 0.75 and 3 M⊙. In addition, we compute an occurrence rate of 45.3%
Keywords
methods: data analysis / techniques: radial velocities / planets and satellites: general / stars: low-mass / Earth and Planetary Astrophysics / Solar and Stellar Astrophysics
Astronomy & Astrophysics
Volume 700, Article Number A146, Number of pages 17
2025 August
