The CARMENES search for exoplanets around M dwarfs. Revisiting the GJ 317, GJ 463, and GJ 3512 systems and two newly discovered planets orbiting GJ 9773 and GJ 508.2

J. C. Morales; I. Ribas; S. Reffert; M. Perger; S. Dreizler; G. Anglada-Escud\'e; V. J. S. B\'ejar; E. Herrero; J. Kemmer; M. Kuzuhara; M. Lafarga; J. H. Livingston; F. Murgas; B. B. Ogunwale; L. Tal-Or; T. Trifonov; S. Vanaverbeke; P. J. Amado; A. Quirrenbach; A. Reiners; J. A. Caballero; J. F. Ag\"u\'i Fern\'andez; J. Banegas; P. Chaturvedi; S. Dufoer; A. P. Hatzes; Th. Henning; C. Rodr\'iguez-L\'opez; A. Schweitzer; E. Solano; M. Zechmeister; H. Harakawa; T. Kotani; M. Omiya; B. Sato; M. Tamura

arXiv:2507.15516·astro-ph.EP·July 22, 2025

The CARMENES search for exoplanets around M dwarfs. Revisiting the GJ 317, GJ 463, and GJ 3512 systems and two newly discovered planets orbiting GJ 9773 and GJ 508.2

J. C. Morales, I. Ribas, S. Reffert, M. Perger, S. Dreizler, G. Anglada-Escud\'e, V. J. S. B\'ejar, E. Herrero, J. Kemmer, M. Kuzuhara, M. Lafarga, J. H. Livingston, F. Murgas, B. B. Ogunwale, L. Tal-Or, T. Trifonov, S. Vanaverbeke, P. J. Amado, A. Quirrenbach, A. Reiners

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TL;DR

This study analyzes five M dwarf systems using radial velocity data, refining known planetary parameters and discovering two new giant planets, highlighting the prevalence of wide-orbit giant planets around low-metallicity, low-mass stars.

Contribution

The paper provides improved orbital parameters for known planets and reports two new giant planets orbiting M dwarfs, expanding knowledge of planet occurrence around low-mass stars.

Findings

01

GJ 3512 c's orbital parameters are now better constrained.

02

Two new giant planets discovered orbiting GJ 9733 and GJ 508.2.

03

Giant planets are more common in wide orbits around low-metallicity M dwarfs.

Abstract

Surveys for exoplanets indicate that the occurrence rate of gas giant planets orbiting late-type stars in orbits with periods shorter than 1000 days is lower than in the case of Sun-like stars. This is in agreement with planet formation models based on the core or pebble accretion paradigm. The CARMENES exoplanet survey has been conducting radial-velocity observations of several targets that show long-period trends or modulations that are consistent with the presence of giant planets at large orbital separations. We present an analysis of five such systems that were monitored with the CARMENES spectrograph, as well as with the IRD spectrograph. In addition, we used archival data to improve the orbital parameters of the planetary systems. We improve the parameters of three previously known planets orbiting the M dwarfs GJ 317, GJ 463, and GJ 3512. We also determine the orbital parameters…

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