Removing biases on the density of sub-Neptunes characterised via transit timing variations: Update on the mass-radius relationship of 34 Kepler planets

Leleu, A.; Delisle, J.-B.; Udry, S.; Mardling, R.; Turbet, M.; Egger, J.A.; Alibert, Y.; Chatel, G.; Eggenberger, P.; Stalport, Manu

doi:10.1051/0004-6361/202244132

Article (Scientific journals)

Removing biases on the density of sub-Neptunes characterised via transit timing variations: Update on the mass-radius relationship of 34 Kepler planets

Leleu, A.; Delisle, J.-B.; Udry, S. et al.

2023 • In Astronomy and Astrophysics, 669 (A117)

Peer Reviewed verified by ORBi

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https://hdl.handle.net/2268/329282

DOI
10.1051/0004-6361/202244132

arXiV
2207.07456v1

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Keywords :

Methods: data analysis; Planets and satellites: fundamental parameters; Planets and satellites: general; Techniques: photometric -celestial mechanics; Celestial mechanics; Methods. Data analysis; Planetary system; Radial velocity; Technique: photometric -celestial mechanic; Techniques: photometric; Timing variations; Transit timing; Astronomy and Astrophysics; Space and Planetary Science

Abstract :

[en] Transit timing variations (TTVs) can provide useful information on compact multi-planetary systems observed by transits by setting constraints on the masses and eccentricities of the observed planets. This is especially helpful when the host star is not bright enough for a radial velocity (RV) follow-up. However, in the past decade, a number of works have shown that TTV-characterised planets tend to have lower densities than planets characterised on the basis of RVs. Re-analysing 34 Kepler planets in the super-Earth to sub-Neptunes range using the RIVERS approach, we show that at least some of these discrepancies were due to the way transit timings were extracted from the light curve, as a result of their tendency to underestimate the TTV amplitudes. We recovered robust mass estimates (i.e. with low prior dependency) for 23 of the planets. We compared these planets the RV-characterised population and found that a large fraction of those that previously had unusually low density estimates were adjusted, allowing them to occupy a place on the mass-radius diagram much closer to the bulk of known planets. However, a slight shift toward lower densities remains, which could indicate that the compact multi-planetary systems characterised by TTVs are indeed composed of planets that are different from the bulk of the RV-characterised population. These results are especially important in the context of obtaining an unbiased view of the compact multi-planetary systems detected by Kepler, TESS, and the upcoming PLATO mission.

Disciplines :

Space science, astronomy & astrophysics

Author, co-author :

Leleu, A.; Observatoire de Geneve, Universite de Geneve, Switzerland

Delisle, J.-B.; Observatoire de Geneve, Universite de Geneve, Switzerland

Udry, S.; Observatoire de Geneve, Universite de Geneve, Switzerland

Mardling, R.; School of Physics and Astronomy, Monash University, Victoria, Australia

Turbet, M.; PSL Research University, Laboratoire de Meteorologie Dynamique/IPSL, CNRS, Sorbonne Universite, Ecole Normale Superieure, Ecole Polytechnique, Paris, France

Egger, J.A.; Physikalisches Institut, Universitat Bern, Bern, Switzerland

Alibert, Y.; Physikalisches Institut, Universitat Bern, Bern, Switzerland

Chatel, G.; Fontenay-en-Parisis, France

Eggenberger, P.; Observatoire de Geneve, Universite de Geneve, Switzerland

Stalport, Manu ; Université de Liège - ULiège > Unités de recherche interfacultaires > Space sciences, Technologies and Astrophysics Research (STAR) ; Observatoire de Geneve, Universite de Geneve, Switzerland

Language :

English

Title :

Removing biases on the density of sub-Neptunes characterised via transit timing variations: Update on the mass-radius relationship of 34 Kepler planets

Publication date :

2023

Journal title :

Astronomy and Astrophysics

ISSN :

0004-6361

eISSN :

1432-0746

Publisher :

EDP Sciences

Volume :

669

Issue :

A117

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

https://www.aanda.org/10.1051/0004-6361/202244132/pdf

Funding text :

This work has been carried out within the framework of the National Centre of Competence in Research PlanetS supported by the Swiss National Science Foundation and benefited from the seed-funding program of the Technology Platform of PlanetS. The authors acknowledge the financial support of the SNSF.

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