_version_ 1866908912993697792
author Kroft, Maxwell A.
Beatty, Thomas G.
Crossfield, Ian J. M.
Livesey, Joseph R.
Becker, Juliette
Luhn, Jacob K.
Robertson, Paul
Bieryla, Allyson
Ciardi, David R.
Clark, Catherine A.
Goliguzova, Maria V.
Howell, Steve B.
Lissauer, Jack J.
Littlefield, Colin
Lund, Michael B.
Safonov, Boris S.
Murphy, Joseph M. Akana
Batalha, Natalie M.
Bossett, Malik
Brande, Jonathan
Daylan, Tansu
Dressing, Courtney
Gagnebin, Anna
Huber, Daniel
Isaacson, Howard
Kane, Stephen R.
Kreidberg, Laura
Latham, David W.
Luque, Rafael
Polanski, Alex S.
Premnath, Pranav H.
Rhem, Maleah
Rogers, Claire J.
Turtelboom, Emma V.
author_facet Kroft, Maxwell A.
Beatty, Thomas G.
Crossfield, Ian J. M.
Livesey, Joseph R.
Becker, Juliette
Luhn, Jacob K.
Robertson, Paul
Bieryla, Allyson
Ciardi, David R.
Clark, Catherine A.
Goliguzova, Maria V.
Howell, Steve B.
Lissauer, Jack J.
Littlefield, Colin
Lund, Michael B.
Safonov, Boris S.
Murphy, Joseph M. Akana
Batalha, Natalie M.
Bossett, Malik
Brande, Jonathan
Daylan, Tansu
Dressing, Courtney
Gagnebin, Anna
Huber, Daniel
Isaacson, Howard
Kane, Stephen R.
Kreidberg, Laura
Latham, David W.
Luque, Rafael
Polanski, Alex S.
Premnath, Pranav H.
Rhem, Maleah
Rogers, Claire J.
Turtelboom, Emma V.
contents We confirm the planetary nature of a pair of transiting sub-Neptune exoplanets orbiting the bright F-type sub-giant star TOI-6054 ($V=8.02$, $K=6.673$) as a part of the OrCAS radial velocity survey using WIYN/NEID observations. We find that TOI-6054b and TOI-6054c have radii of $2.65 \pm 0.15$ $R_{\oplus}$ and $2.81 \pm 0.18$ $R_{\oplus}$, respectively, and masses of $12.4 \pm 1.7$ $M_{\oplus}$ and $9.2 \pm 2.0$ $M_{\oplus}$. The planets have zero-albedo equilibrium temperatures of $1360 \pm 33$ K and $1144 \pm 28$ K. The host star has expanded and will evolve off of the Main Sequence within the next $\sim$500 Myr, and the resulting increase in stellar luminosity has more than doubled the stellar flux the two planets receive compared to the start of the host star's main sequence phase. Consequently, TOI-6054b may be losing some of its primordial H/He atmosphere -- if it has one. Based on dynamical simulations performed using the orbital parameters of the two planets, TOI-6054b, and TOI-6054c are very likely in a 5:3 mean motion resonance. The TOI-6054 system thus has the potential to be an excellent candidate for future atmospheric follow-up observations, with two similarly sized sub-Neptunes around a bright star. We also estimate that if TOI-6054b is currently losing its H/He atmosphere this should be observable from space and from the ground.
format Preprint
id arxiv_https___arxiv_org_abs_2501_09095
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Pair of Dynamically Interacting Sub-Neptunes Around TOI-6054
Kroft, Maxwell A.
Beatty, Thomas G.
Crossfield, Ian J. M.
Livesey, Joseph R.
Becker, Juliette
Luhn, Jacob K.
Robertson, Paul
Bieryla, Allyson
Ciardi, David R.
Clark, Catherine A.
Goliguzova, Maria V.
Howell, Steve B.
Lissauer, Jack J.
Littlefield, Colin
Lund, Michael B.
Safonov, Boris S.
Murphy, Joseph M. Akana
Batalha, Natalie M.
Bossett, Malik
Brande, Jonathan
Daylan, Tansu
Dressing, Courtney
Gagnebin, Anna
Huber, Daniel
Isaacson, Howard
Kane, Stephen R.
Kreidberg, Laura
Latham, David W.
Luque, Rafael
Polanski, Alex S.
Premnath, Pranav H.
Rhem, Maleah
Rogers, Claire J.
Turtelboom, Emma V.
Earth and Planetary Astrophysics
We confirm the planetary nature of a pair of transiting sub-Neptune exoplanets orbiting the bright F-type sub-giant star TOI-6054 ($V=8.02$, $K=6.673$) as a part of the OrCAS radial velocity survey using WIYN/NEID observations. We find that TOI-6054b and TOI-6054c have radii of $2.65 \pm 0.15$ $R_{\oplus}$ and $2.81 \pm 0.18$ $R_{\oplus}$, respectively, and masses of $12.4 \pm 1.7$ $M_{\oplus}$ and $9.2 \pm 2.0$ $M_{\oplus}$. The planets have zero-albedo equilibrium temperatures of $1360 \pm 33$ K and $1144 \pm 28$ K. The host star has expanded and will evolve off of the Main Sequence within the next $\sim$500 Myr, and the resulting increase in stellar luminosity has more than doubled the stellar flux the two planets receive compared to the start of the host star's main sequence phase. Consequently, TOI-6054b may be losing some of its primordial H/He atmosphere -- if it has one. Based on dynamical simulations performed using the orbital parameters of the two planets, TOI-6054b, and TOI-6054c are very likely in a 5:3 mean motion resonance. The TOI-6054 system thus has the potential to be an excellent candidate for future atmospheric follow-up observations, with two similarly sized sub-Neptunes around a bright star. We also estimate that if TOI-6054b is currently losing its H/He atmosphere this should be observable from space and from the ground.
title A Pair of Dynamically Interacting Sub-Neptunes Around TOI-6054
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2501.09095