Validation of 13 Hot and Potentially Terrestrial TESS Planets

Steven Giacalone; Courtney D. Dressing; Christina Hedges; Veselin B.; Kostov; Karen A. Collins; Eric L. N. Jensen; Daniel A. Yahalomi; Allyson; Bieryla; David R. Ciardi; Steve B. Howell; Jorge Lillo-Box; Khalid Barkaoui,; Jennifer G. Winters; Elisabeth Matthews; John H. Livingston; Samuel N. Quinn,; Boris S. Safonov; Charles Cadieux; E. Furlan; Ian J. M. Crossfield; Avi M.; Mandell; Emily A. Gilbert; Ethan Kruse; Elisa V. Quintana; George R. Ricker,; S. Seager; Joshua N. Winn; Jon M. Jenkins; Britt Duffy Adkins; David Baker,; Thomas Barclay; David Barrado; Natalie M. Batalha; Alexander A. Belinski,; Zouhair Benkhaldoun; Lars A. Buchhave; Luca Cacciapuoti; David Charbonneau,; Ashley Chontos; Jessie L. Christiansen; Ryan Cloutier; Kevin I. Collins,; Dennis M. Conti; Neil Cutting; Scott Dixon; Ren\'e Doyon; Mohammed El Mufti,; Emma Esparza-Borges; Zahra Essack; Akihiko Fukui; Tianjun Gan; Kaz Gary,; Mourad Ghachoui; Micha\"el Gillon; Eric Girardin; Ana Glidden; Erica J.; Gonzales; Pere Guerra; Elliott P. Horch; Krzysztof G. Helminiak; Andrew W.; Howard; Daniel Huber; Jonathan M. Irwin; Giovanni Isopi; Emmanu\"el Jehin,; Taiki Kagetani; Stephen R. Kane; Kiyoe Kawauchi; John F. Kielkopf; Pablo; Lewin; Lindy Luker; Michael B. Lund; Franco Mallia; Shude Mao; Bob Massey,; Rachel A. Matson; Ismael Mireles; Mayuko Mori; Felipe Murgas; Norio Narita,; Tanner O`Dwyer; Erik A. Petigura; Alex S. Polanski; Francisco J. Pozuelos,; Enric Palle; Hannu Parviainen; Peter P. Plavchan; Howard M. Relles; Paul; Robertson; Mark E. Rose; Pamela Rowden; Arpita Roy; Arjun B. Savel; Joshua E.; Schlieder; Chloe Schnaible; Richard P. Schwarz; Ramotholo Sefako; Aleksandra; Selezneva; Brett Skinner; Chris Stockdale; Ivan A. Strakhov; Thiam-Guan Tan,; Guillermo Torres; Ren\'e Tronsgaard; Joseph D. Twicken; David Vermilion; Ian; A. Waite; Bradley Walter; Gavin Wang; Carl Ziegler; Yujie Zou

arXiv:2201.12661·astro-ph.EP·February 14, 2022

Validation of 13 Hot and Potentially Terrestrial TESS Planets

Steven Giacalone, Courtney D. Dressing, Christina Hedges, Veselin B., Kostov, Karen A. Collins, Eric L. N. Jensen, Daniel A. Yahalomi, Allyson, Bieryla, David R. Ciardi, Steve B. Howell, Jorge Lillo-Box, Khalid Barkaoui,, Jennifer G. Winters, Elisabeth Matthews

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TL;DR

This paper validates 13 potentially terrestrial planets detected by TESS, highlighting their suitability for JWST atmospheric studies and providing insights into their properties, ages, and host star characteristics.

Contribution

The study identifies and validates 13 terrestrial planet candidates from TESS data, including the youngest and most metal-rich ultra-short-period planets known.

Findings

01

Validated 13 terrestrial planet candidates.

02

Identified the youngest and most metal-rich ultra-short-period planets.

03

Highlighted planets suitable for JWST atmospheric characterization.

Abstract

The James Webb Space Telescope (JWST) will be able to probe the atmospheres and surface properties of hot, terrestrial planets via emission spectroscopy. We identify 18 potentially terrestrial planet candidates detected by the Transiting Exoplanet Survey Satellite (TESS) that would make ideal targets for these observations. These planet candidates cover a broad range of planet radii ( $R_{p} \sim 0.6 - 2.0 R_{\oplus}$ ) and orbit stars of various magnitudes ( $K_{s} = 5.78 - 10.78$ , $V = 8.4 - 15.69$ ) and effective temperatures ( $T_{eff} \sim 3000 - 6000$ K). We use ground-based observations collected through the TESS Follow-up Observing Program (TFOP) and two vetting tools -- DAVE and TRICERATOPS -- to assess the reliabilities of these candidates as planets. We validate 13 planets: TOI-206 b, TOI-500 b, TOI-544 b, TOI-833 b, TOI-1075 b, TOI-1411 b, TOI-1442 b, TOI-1693 b, TOI-1860 b,…

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