Identification of the Top TESS Objects of Interest for Atmospheric   Characterization of Transiting Exoplanets with JWST

Benjamin J. Hord; Eliza M.-R. Kempton; Thomas Mikal-Evans; David W.; Latham; David R. Ciardi; Diana Dragomir; Knicole D. Col\'on; Gabrielle Ross,; Andrew Vanderburg; Zoe L. de Beurs; Karen A. Collins; Cristilyn N. Watkins,; Jacob Bean; Nicolas B. Cowan; Tansu Daylan; Caroline V. Morley; Jegug Ih,; David Baker; Khalid Barkaoui; Natalie M. Batalha; Aida Behmard; Alexander; Belinski; Zouhair Benkhaldoun; Paul Benni; Krzysztof Bernacki; Allyson; Bieryla; Avraham Binnenfeld; Pau Bosch-Cabot; Fran\c{c}ois Bouchy; Valerio; Bozza; Rafael Brahm; Lars A. Buchhave; Michael Calkins; Ashley Chontos,; Catherine A. Clark; Ryan Cloutier; Marion Cointepas; Kevin I. Collins; Dennis; M. Conti; Ian J. M. Crossfield; Fei Dai; Jerome P. de Leon; Georgina; Dransfield; Courtney Dressing; Adam Dustor; Gilbert Esquerdo; Phil Evans,; Sergio B. Fajardo-Acosta; Jerzy Fio{\l}ka; Raquel For\'es-Toribio; Antonio; Frasca; Akihiko Fukui; Benjamin Fulton; Elise Furlan; Tianjun Gan; Davide; Gandolfi; Mourad Ghachoui; Steven Giacalone; Emily A. Gilbert; Micha\"el; Gillon; Eric Girardin; Erica Gonzales; Ferran Grau Horta; Joao Gregorio,; Michael Greklek-McKeon; Pere Guerra; J. D. Hartman; Coel Hellier; Krzysztof; G. He{\l}miniak; Thomas Henning; Michelle L. Hill; Keith Horne; Andrew W.; Howard; Steve B. Howell; Daniel Huber; Howard Isaacson; Giovanni Isopi,; Emmanuel Jehin; Jon M. Jenkins; Eric L. N. Jensen; Marshall C. Johnson,; Andr\'es Jord\'an; Stephen R. Kane; John F. Kielkopf; Vadim Krushinsky,; S{\l}awomir Lasota; Elena Lee; Pablo Lewin; John H. Livingston; Jack Lubin,; Michael B. Lund; Franco Mallia; Christopher R. Mann; Giuseppe Marino,; Nataliia Maslennikova; Bob Massey; Rachel Matson; Elisabeth Matthews; Andrew; W. Mayo; Tsevi Mazeh; Kim K. McLeod; Edward J. Michaels; Teo Mo\v{c}nik,; Mayuko Mori; Georgia Mraz; Jose A. Mu\~noz; Norio Narita; Louise Dyregaard; Nielsen; Hugh Osborn; Enric Palle; Aviad Panahi; Riccardo Papini; Alex S.; Polanski; Adam Popowicz; Francisco J. Pozuelos; Samuel N. Quinn; Don J.; Radford; Phillip A. Reed; Howard M. Relles; Malena Rice; Paul Robertson,; Joseph E. Rodriguez; Lee J. Rosenthal; Ryan A. Rubenzahl; Nicole Schanche,; Joshua Schlieder; Richard P. Schwarz; Ramotholo Sefako; Avi Shporer,; Alessandro Sozzetti; Gregor Srdoc; Chris Stockdale; Alexander Tarasenkov,; Thiam-Guan Tan; Mathilde Timmermans; Eric B. Ting; Judah Van Zandt; JP; Vignes; Ian Waite; Noriharu Watanabe; Lauren M. Weiss; Justin Wittrock,; George Zhou; Carl Ziegler; and Shay Zucker

arXiv:2308.09617·astro-ph.EP·August 21, 2023·1 cites

Identification of the Top TESS Objects of Interest for Atmospheric Characterization of Transiting Exoplanets with JWST

Benjamin J. Hord, Eliza M.-R. Kempton, Thomas Mikal-Evans, David W., Latham, David R. Ciardi, Diana Dragomir, Knicole D. Col\'on, Gabrielle Ross,, Andrew Vanderburg, Zoe L. de Beurs, Karen A. Collins, Cristilyn N. Watkins,, Jacob Bean, Nicolas B. Cowan, Tansu Daylan

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TL;DR

This paper identifies the best TESS exoplanet candidates for atmospheric study with JWST by ranking and vetting them, providing a curated resource to optimize future observational efforts.

Contribution

The study presents a ranked sample of TESS planets suitable for JWST atmospheric characterization, including validation of new planet candidates and a community resource for future research.

Findings

01

Validated 23 TESS Objects of Interest as planets.

02

Ranked 194 targets based on spectral metrics.

03

Provided a curated list for JWST atmospheric studies.

Abstract

JWST has ushered in an era of unprecedented ability to characterize exoplanetary atmospheres. While there are over 5,000 confirmed planets, more than 4,000 TESS planet candidates are still unconfirmed and many of the best planets for atmospheric characterization may remain to be identified. We present a sample of TESS planets and planet candidates that we identify as "best-in-class" for transmission and emission spectroscopy with JWST. These targets are sorted into bins across equilibrium temperature $T_{eq}$ and planetary radius $R_{p}$ and are ranked by transmission and emission spectroscopy metric (TSM and ESM, respectively) within each bin. In forming our target sample, we perform cuts for expected signal size and stellar brightness, to remove sub-optimal targets for JWST. Of the 194 targets in the resulting sample, 103 are unconfirmed TESS planet candidates, also…

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Taxonomy

TopicsSpectroscopy and Laser Applications · Atmospheric Ozone and Climate · Stellar, planetary, and galactic studies