GIARPS explores the enigmatic nature of TOI-5398 b atmospheric signal
A recent study within the GAPS collaboration (Global Architecture of Planetary Systems ) used two of the instruments permanently mounted on Telescopio Nazionale Galileo to study the atmospheres of the extrasolar planet TOI-5398 b.
Namely, HARPS-N (High Accuracy Radial velocity Planet Searcher in North hemisphere) and GIANO-B (near-IR high-resolution echelle spectrograph of the TNG) were used in the GIARPS configuration to characterize the atmospheric properties of TOI-5398 b, a warm Saturn with a 10.59-day orbit around a young (650 Myr) G-type star. The system also hosts a smaller inner planet, TOI-5398 c, with a 4.77-day orbit. Both planets are ideal for atmospheric studies due to their proximity to the host star, which drives strong photo-evaporation, especially in planet b, whose strong emission lines detected in its atmosphere by transmission spectroscopy makes it a prime target.
Atmospheric characterization is key to understanding exoplanetary systems, offering insights into the planets current and past conditions. By analyzing key lines like H alpha and the He I triplet, it is possible to trace the evolution of planets through atmospheric photo-evaporation. In this context, the detection of Hα and He I triplets, as well as the Na I doublet, contributed valuable data to confirm theoretical predictions regarding atmospheric escape in exoplanets. This research also offered a clearer picture of the height distribution of atmospheric elements, showing that He I and Na I lie in outer atmospheric layers, while Hα is more centrally located.
The study's novelty lies in confirming these features in a warm Saturn-like planet rather than an ultra-hot Jupiter. Additionally, the detection of the Na I doublet in this relatively cold atmosphere (947 K) adds to the knowledge base of atmospheric compositions in cooler exoplanets. The combination of He I and Hα in a single system is rare and helps further to substantiate models predicting photo-evaporation effects.
Useful links
- Link to the paper: https://arxiv.org/abs/2410.15917
- Information about the planetary system: https://www.media.inaf.it/2024/02/13/il-piu-giovane-sistema-multi-planetario-compatto/