English

JWST TRAPPIST-1 e/b Program: Motivation and first observations

Earth and Planetary Astrophysics 2025-12-09 v1

Abstract

One of the forefront goals in the field of exoplanets is the detection of an atmosphere on a temperate terrestrial exoplanet, and among the best suited systems to do so is TRAPPIST-1. However, JWST transit observations of the TRAPPIST-1 planets show significant contamination from stellar surface features that we are unable to confidently model. Here, we present the motivation and first observations of our JWST multi-cycle program of TRAPPIST-1 e, which utilize close transits of the airless TRAPPIST-1 b to model-independently correct for stellar contamination, with the goal of determining whether TRAPPIST-1 e has an Earth-like mean molecular weight atmosphere containing CO2_2. We present our simulations, which show that with the 15 close transit observations, we will be able to detect this atmosphere on TRAPPIST-1 e at ΔlnZ=5\Delta\ln\,Z=5 or greater confidence assuming we are able to correct for stellar contamination using the close transit observations. We also show the first three observations of our program. We find that our ability to correct for stellar contamination can be inhibited when strong stellar flares are present, as flares can break the assumption that the star does not change meaningfully between planetary transits. The cleanest observation demonstrates the removal of stellar contamination contribution through an increased preference for a flat line over the original TRAPPIST-1 e spectrum, but highlights how minor data analysis assumptions can propagate significantly when searching for small atmospheric signals. This is amplified when using the signals from multiple planets, which is important to consider as we continue our atmospheric search.

Keywords

Cite

@article{arxiv.2512.07695,
  title  = {JWST TRAPPIST-1 e/b Program: Motivation and first observations},
  author = {Natalie H. Allen and Néstor Espinoza and V. A. Boehm and Caleb I. Cañas and Kevin B. Stevenson and Nikole K. Lewis and Ryan J. MacDonald and Brett M. Morris and Eric Agol and Knicole Colón and Hannah Diamond-Lowe and Ana Glidden and Amélie Gressier and Jingcheng Huang and Zifan Lin and Douglas Long and Dana R. Louie and Meredith A. MacGregor and Laurent Pueyo and Benjamin V. Rackham and Sukrit Ranjan and Sara Seager and Guadalupe Tovar Mendoza and Jeff A. Valenti and Daniel Valentine and Roeland P. van der Marel and Hannah R. Wakeford},
  journal= {arXiv preprint arXiv:2512.07695},
  year   = {2025}
}

Comments

26 pages, 15 figures, accepted for publication in AJ

R2 v1 2026-07-01T08:15:09.128Z