Dos Santos, Leonardo A. and Alam, Munazza K. and Espinoza, Néstor and Vissapragada, Shreyas (2023) Observing Atmospheric Escape in Sub-Jovian Worlds with JWST. The Astronomical Journal, 165 (6). p. 244. ISSN 0004-6256
Dos_Santos_2023_AJ_165_244.pdf - Published Version
Download (711kB)
Abstract
Hydrodynamic atmospheric escape is considered an important process that shapes the evolution of sub-Jovian exoplanets, particularly those with short orbital periods. The metastable He line in the near-infrared at 1.083 μm is a reliable tracer of atmospheric escape in hot exoplanets, with the advantage of being observable from the ground. However, observing escaping He in sub-Jovian planets has remained challenging due to the systematic effects and telluric contamination present in ground-based data. With the successful launch and operations of JWST, we now have access to extremely stable high-precision near-infrared spectrographs in space. Here we predict the observability of metastable He with JWST in two representative and previously well-studied warm Neptunes, GJ 436 b (Teq = 687 K, Rp = 0.37 RJ) and GJ 1214 b (Teq = 588 K, Rp = 0.25 RJ). Our simulated JWST observations for GJ 436 b demonstrate that a single transit with NIRSpec/G140H is sensitive to mass-loss rates that are two orders of magnitude lower than what is detectable from the ground. Our exercise for GJ 1214 b show that the best configuration to observe the relatively weak outflows of warm Neptunes with JWST is with NIRSpec/G140H, and that NIRSpec/G140M and NIRISS/SOSS are less optimal. Since none of these instrument configurations can spectrally resolve the planetary absorption, we conclude that the 1D isothermal Parker-wind approximation may not be sufficient for interpreting such observations. More sophisticated models are critical for breaking the degeneracy between outflow temperature and mass-loss rate for JWST measurements of metastable He.
Item Type: | Article |
---|---|
Subjects: | Universal Eprints > Physics and Astronomy |
Depositing User: | Managing Editor |
Date Deposited: | 18 Nov 2023 03:48 |
Last Modified: | 18 Nov 2023 03:48 |
URI: | http://journal.article2publish.com/id/eprint/3204 |