Litcius/Paper detail

TOI-421 b: A Hot Sub-Neptune with a Haze-free, Low Mean Molecular Weight Atmosphere

Brian Davenport, Eliza M.-R. Kempton, Matthew C. Nixon, Jegug Ih, Drake Deming, Guangwei Fu, Erin May, Jacob L. Bean, Peter Gao, Leslie A. Rogers, Matej Malik

2025The Astrophysical Journal Letters37 citationsDOIOpen Access PDF

Abstract

Abstract Common features of sub-Neptune atmospheres observed to date include signatures of aerosols at moderate equilibrium temperatures (∼500–800 K) and a prevalence of high mean molecular weight atmospheres, perhaps indicating novel classes of planets such as water worlds. Here we present a 0.83–5 μ m JWST transmission spectrum of the sub-Neptune TOI-421 b. This planet is unique among previously observed counterparts in its high equilibrium temperature ( T eq ≈ 920 K) and its Sun-like host star. We find marked differences between the atmosphere of TOI-421 b and those of sub-Neptunes previously characterized with JWST, which all orbit late K and M stars. Specifically, water features in the NIRISS/SOSS bandpass indicate a low mean molecular weight atmosphere consistent with solar metallicity and no appreciable aerosol coverage. Hints of SO 2 and CO (but not CO 2 or CH 4 ) also exist in our NIRSpec/G395M observations, but not at sufficient signal-to-noise ratio to draw firm conclusions. Our results support a picture in which sub-Neptunes hotter than ∼850 K do not form hydrocarbon hazes owing to a lack of methane to photolyze. TOI-421 b additionally fits the paradigm of the radius valley for planets orbiting FGK stars being sculpted by mass-loss processes, which would leave behind primordial atmospheres overlying rock/iron interiors. Further observations of TOI-421 b and similar hot sub-Neptunes will confirm whether haze-free atmospheres and low mean molecular weights are universal characteristics of such objects.

Topics & Concepts

Atmosphere (unit)HazeNeptuneAstrobiologyAtmospheric sciencesEnvironmental scienceMeteorologyPhysicsAstronomyPlanetAstro and Planetary ScienceHigh-pressure geophysics and materialsStellar, planetary, and galactic studies