The SPACE Program. I. The featureless spectrum of HD 86226 c challenges sub-Neptune atmosphere trends

K. Angelique Kahle (1; 2); Jasmina Blecic (3; 4); Reza Ashtari (5); Laura Kreidberg (1); Yui Kawashima (6); Patricio E. Cubillos (7; 8); Drake Deming (9); James S. Jenkins (10; 11); Paul Molli\`ere (1); Seth Redfield (12); Qiushi Chris Tian (12; 13); Jose I. Vines (14); David J. Wilson (15); Lorena Acu\~na (1); Bertram Bitsch (16); Jonathan Brande (17); Kevin France (15); Kevin B. Stevenson (5); Ian J.M. Crossfield (17; 1); Tansu Daylan (18; 19); Ian Dobbs-Dixon (3; 4); Thomas M. Evans-Soma (20); Cyril Gapp (1; 2); Antonio Garc\'ia Mu\~noz (21); Kevin Heng (22; 23; 24); Renyu Hu (25; 26); Evgenya L. Shkolnik (27); Keivan G. Stassun (28); and Johanna Teske (29; 30) ((1) Max Planck Institute for Astronomy; (2) Department of Physics; Astronomy; Heidelberg University; (3) Department of Physics; New York University Abu Dhabi; (4) Center for Astrophysics; Space Science (CASS); New York University Abu Dhabi; (5) JHU Applied Physics Laboratory; (6) Department of Astronomy; Graduate School of Science; Kyoto University; (7) Space Research Institute; Austrian Academy of Sciences; (8) INAF; Osservatorio Astrofisico di Torino; (9) University of Maryland College Park; (10) Instituto de Estudios Astrof\'isicos; Facultad de Ingenier\'ia y Ciencias; Universidad Diego Portales; (11) Centro de Astrof\'isica y Tecnolog\'ias Afines (CATA); (12) Astronomy Department; Van Vleck Observatory; Wesleyan University; (13) Department of Physics; Astronomy; The Johns Hopkins University; (14) Instituto de Astronom\'ia; Universidad Cat\'olica del Norte; (15) Laboratory for Atmospheric; Space Physics; University of Colorado; (16) Department of Physics; University College Cork; (17) Department of Physics; Astronomy; University of Kansas; (18) Department of Physics; Washington University; (19) McDonnell Center for the Space Sciences; Washington University; (20) School of Information; Physical Sciences; University of Newcastle; (21) Universit\'e Paris-Saclay; Universit\'e Paris Cit\'e; (22) Faculty of Physics; Ludwig Maximilian University; (23) Department of Physics & Astronomy; University College London; (24) Department of Physics; University of Warwick; (25) Jet Propulsion Laboratory; California Institute of Technology; (26) Division of Geological; Planetary Sciences; California Institute of Technology; (27) School of Earth; Space Exploration; Arizona State University; (28) Department of Physics & Astronomy; Vanderbilt University; (29) Earth; Planets Laboratory; Carnegie Institution for Science; (30) Observatories; Carnegie Institution for Science)

arXiv:2507.13439·astro-ph.EP·September 17, 2025

The SPACE Program. I. The featureless spectrum of HD 86226 c challenges sub-Neptune atmosphere trends

K. Angelique Kahle (1, 2), Jasmina Blecic (3, 4), Reza Ashtari (5), Laura Kreidberg (1), Yui Kawashima (6), Patricio E. Cubillos (7, 8), Drake Deming (9), James S. Jenkins (10, 11), Paul Molli\`ere (1), Seth Redfield (12), Qiushi Chris Tian (12, 13), Jose I. Vines (14)

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TL;DR

This study characterizes the atmosphere of the hot sub-Neptune HD 86226 c, revealing a featureless spectrum that challenges existing trends and suggests high metallicity or unusual cloud compositions.

Contribution

It provides the first detailed transmission spectrum of HD 86226 c, showing it does not follow typical sub-Neptune aerosol trends and proposing alternative atmospheric compositions.

Findings

01

Featureless transmission spectrum consistent with high metallicity or clouds

02

Excludes cloud-free solar-metallicity atmosphere with 6.5 sigma confidence

03

Suggests non-standard cloud composition or high metal enrichment

Abstract

Sub-Neptune exoplanets are the most abundant type of planet known today. As they do not have a Solar System counterpart, many open questions exist about their composition and formation. Previous spectroscopic studies rule out aerosol-free hydrogen-helium-dominated atmospheres for many characterized sub-Neptunes but are inconclusive about their exact atmospheric compositions. Here we characterize the hot (Teq=1311K) sub-Neptune HD 86226 c, which orbits its G-type host star. Its high equilibrium temperature prohibits methane-based haze formation, increasing the chances for a clear atmosphere on this planet. We use HST data taken with WFC3 and STIS from the Sub-neptune Planetary Atmosphere Characterization Experiment (SPACE) Program to perform near-infrared 1.1-1.7micrometer transmission spectroscopy and UV characterization of the host star. We report a featureless transmission spectrum…

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