HD 119130 b is not an "ultra-dense" sub-Neptune

Joseph M. Akana Murphy; Rafael Luque; Natalie M. Batalha; Ilaria; Carleo; Enric Palle; Madison Brady; Benjamin Fulton; Luke B. Handley; Howard; Isaacson; Gaia Lacedelli; Felipe Murgas; Grzegorz Nowak; J. Orell-Miquel,; Hannah L. M. Osborne; Vincent Van Eylen; Mar\'ia Rosa Zapatero Osorio

arXiv:2411.02518·astro-ph.EP·November 12, 2024

HD 119130 b is not an "ultra-dense" sub-Neptune

Joseph M. Akana Murphy, Rafael Luque, Natalie M. Batalha, Ilaria, Carleo, Enric Palle, Madison Brady, Benjamin Fulton, Luke B. Handley, Howard, Isaacson, Gaia Lacedelli, Felipe Murgas, Grzegorz Nowak, J. Orell-Miquel,, Hannah L. M. Osborne, Vincent Van Eylen

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TL;DR

This paper revises the mass of HD 119130 b, showing it is less dense than previously thought, highlighting the challenges in accurately measuring small exoplanet masses via radial velocity methods.

Contribution

It provides a corrected mass measurement for HD 119130 b and discusses potential causes for previous inaccuracies, emphasizing the complexities in RV-based exoplanet mass determinations.

Findings

01

HD 119130 b's mass is approximately one-third of previous estimates.

02

The initial mass measurement was likely inflated by stellar activity signals.

03

Accurate RV measurements of small planets are challenging and may be misleading.

Abstract

We present a revised mass measurement for HD 119130 b (aka K2-292 b), a transiting planet ( $P = 17$ days, $R_{p} = 2.6 3_{- 0.10}^{+ 0.11}$ $R_{\oplus}$ ) orbiting a chromospherically inactive G dwarf, previously thought to be one of the densest sub-Neptunes known. Our follow-up Doppler observations with HARPS, HARPS-N, and HIRES reveal that HD 119130 b is, in fact, nearly one-third as massive as originally suggested by its initial confirmation paper. Our revised analysis finds $M_{p} = 8.8 \pm 3.2$ $M_{\oplus}$ ( $M_{p} < 15.4$ $M_{\oplus}$ at 98\% confidence) compared to the previously reported $M_{p} = 24.5 \pm 4.4$ $M_{\oplus}$ . While the true cause of the original mass measurement's inaccuracy remains uncertain, we present the plausible explanation that the planet's radial velocity (RV) semi-amplitude was inflated due to…

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Taxonomy

TopicsAstro and Planetary Science · Stellar, planetary, and galactic studies · Space Exploration and Technology