# K2-146: Discovery of Planet c, Precise Masses from Transit Timing, and   Observed Precession

**Authors:** Aaron Hamann, Benjamin T. Montet, Daniel C. Fabrycky, Eric Agol, Ethan, Kruse

arXiv: 1907.10620 · 2019-09-11

## TL;DR

This paper reports the discovery and detailed characterization of a two-planet system around a mid-M dwarf, including precise mass measurements, transit timing variations, and observed precession, revealing insights into their composition and orbital dynamics.

## Contribution

It provides the first precise mass measurements of small exoplanets in a resonant system around an M dwarf, utilizing transit timing variations and dynamical modeling.

## Key findings

- Both planets are sub-Neptunes with low densities.
- The planets are in a 3:2 resonance with significant transit timing variations.
- The planets may have retained substantial gaseous envelopes.

## Abstract

K2-146 is a mid-M dwarf ($M_\star = 0.331 \pm 0.009 M_\odot$; $R_\star = 0.330 \pm 0.010 R_\odot$), observed in Campaigns 5, 16, and 18 of the K2 mission. In Campaign 5 data, a single planet was discovered with an orbital period of $2.6$~days and large transit timing variations due to an unknown perturber. Here we analyze data from Campaigns 16 and 18, detecting the transits of a second planet, c, with an orbital period of $4.0$~days, librating in a 3:2 resonance with planet b. Large, anti-correlated timing variations of both planets exist due to their resonant perturbations. The planets have a mutual inclination of $2.40^\circ\pm0.25^\circ$, which torqued planet c more closely into our line-of-sight. Planet c was grazing in Campaign 5 and thus missed in previous searches; in Campaigns 16 and 18 it is fully transiting, and its transit depth is three times larger. We improve the stellar properties using data from Gaia DR2, and using dynamical fits find that both planets are sub-Neptunes: their masses are $5.77\pm0.18$ and $7.50\pm0.23 M_{\oplus}$ and their radii are $2.04\pm0.06$ and $2.19\pm0.07$ R$_\oplus$, respectively. These mass constraints set the precision record for small exoplanets (a few gas giants have comparable relative precision). These planets lie in the photoevaporation valley when viewed in Radius-Period space, but due to the low-luminosity M-dwarf host star, they lie among the atmosphere-bearing planets when viewed in Radius-Irradiation space. This, along with their densities being 60%-80% that of Earth, suggests that they may both have retained a substantial gaseous envelope.

## Full text

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## Figures

21 figures with captions in the complete paper: https://tomesphere.com/paper/1907.10620/full.md

## References

87 references — full list in the complete paper: https://tomesphere.com/paper/1907.10620/full.md

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Source: https://tomesphere.com/paper/1907.10620