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

K. Angelique Kahle; Jasmina Blecic; Reza Ashtari; Laura Kreidberg; Yui Kawashima; Patricio E. Cubillos; Drake Deming; James S. Jenkins; Paul Mollière; Seth Redfield; Qiushi Chris Tian; Jose I. Vines; David J. Wilson; Lorena Acuña; Bertram Bitsch; Jonathan Brande; Kevin France; Kevin B. Stevenson; Ian J.M. Crossfield; Tansu Daylan; Ian Dobbs-Dixon; Thomas M. Evans-Soma; Cyril Gapp; Antonio García Muñoz; Kevin Heng; Renyu Hu; Evgenya L. Shkolnik; Keivan G. Stassun; Johanna Teske

doi:10.1051/0004-6361/202554916

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

K. Angelique Kahle
, Jasmina Blecic
, Reza Ashtari
, Laura Kreidberg
, Yui Kawashima
, Patricio E. Cubillos
, Drake Deming
, James S. Jenkins
, Paul Mollière
, Seth Redfield
, Qiushi Chris Tian
, Jose I. Vines
, David J. Wilson
, Lorena Acuña
, Bertram Bitsch
, Jonathan Brande
, Kevin France
, Kevin B. Stevenson
, Ian J.M. Crossfield
, Tansu Daylan

Ian Dobbs-Dixon, Thomas M. Evans-Soma, Cyril Gapp, Antonio García Muñoz, Kevin Heng, Renyu Hu, Evgenya L. Shkolnik, Keivan G. Stassun, Johanna Teske

Department of Physics

Research output: Contribution to journal › Article › peer-review

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 have ruled 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 (T_eq=1311 K) sub-Neptune HD 86226 c (R=2.2 R_⊕, M=7.25 M_⊕), which orbits its G-type host star on a four-day orbit. The planet is located in a special part of the sub-Neptune parameter space: Its high equilibrium temperature prohibits methane-based haze formation, increasing the chances for a clear atmosphere on this planet. We used Hubble Space Telescope data taken with WFC3 and STIS from the Sub-Neptune Planetary Atmosphere Characterization Experiment (SPACE) Program to perform near-infrared (1.1–1.7 µm) transmission spectroscopy and ultraviolet characterization of the host star. We report a featureless transmission spectrum that is consistent within 0.4 σ with a constant transit depth of 418 ± 14 ppm. The amplitude of this spectrum is only 0.01 scale heights for a H/He-dominated atmosphere, excluding a cloud-free solar-metallicity atmosphere on HD 86226 c with a confidence of 6.5 σ. Based on an atmospheric retrieval analysis and forward models of cloud and haze formation, we find that the featureless spectrum could be due to metal enrichment [M/H] > 2.3 (3 σ confidence lower limit) of a cloudless atmosphere, or silicate (MgSiO₃), iron (Fe), or manganese sulfide (MnS) clouds. For these species, we performed a detailed investigation of cloud formation in high metallicity, high-temperature atmospheres. Our results highlight that HD 86226 c does not follow the aerosol trend of sub-Neptunes found by previous studies. Follow-up observations with the James Webb Space Telescope could determine whether this planet aligns with the recent detections of metal-enriched atmospheres or if it harbors a cloud species that is otherwise atypical for sub-Neptunes.

Original language	English
Article number	A184
Journal	Astronomy and Astrophysics
Volume	701
DOIs	https://doi.org/10.1051/0004-6361/202554916
State	Published - Sep 1 2025

Keywords

planets
planets and satellites: atmospheres
planets and satellites: gaseous planets
satellites: individual: HD 86226 c
techniques: spectroscopic

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10.1051/0004-6361/202554916

Cite this

Kahle, K. A., Blecic, J., Ashtari, R., Kreidberg, L., Kawashima, Y., Cubillos, P. E., Deming, D., Jenkins, J. S., Mollière, P., Redfield, S., Tian, Q. C., Vines, J. I., Wilson, D. J., Acuña, L., Bitsch, B., Brande, J., France, K., Stevenson, K. B., Crossfield, I. J. M., ... Teske, J. (2025). The SPACE Program I. The featureless spectrum of HD 86226 c challenges sub-Neptune atmosphere trends. Astronomy and Astrophysics, 701, Article A184. https://doi.org/10.1051/0004-6361/202554916

@article{d460ea7eaf924ce186c3f50a32debc66,

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

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 have ruled 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=1311 K) sub-Neptune HD 86226 c (R=2.2 R⊕, M=7.25 M⊕), which orbits its G-type host star on a four-day orbit. The planet is located in a special part of the sub-Neptune parameter space: Its high equilibrium temperature prohibits methane-based haze formation, increasing the chances for a clear atmosphere on this planet. We used Hubble Space Telescope data taken with WFC3 and STIS from the Sub-Neptune Planetary Atmosphere Characterization Experiment (SPACE) Program to perform near-infrared (1.1–1.7 µm) transmission spectroscopy and ultraviolet characterization of the host star. We report a featureless transmission spectrum that is consistent within 0.4 σ with a constant transit depth of 418 ± 14 ppm. The amplitude of this spectrum is only 0.01 scale heights for a H/He-dominated atmosphere, excluding a cloud-free solar-metallicity atmosphere on HD 86226 c with a confidence of 6.5 σ. Based on an atmospheric retrieval analysis and forward models of cloud and haze formation, we find that the featureless spectrum could be due to metal enrichment [M/H] > 2.3 (3 σ confidence lower limit) of a cloudless atmosphere, or silicate (MgSiO3), iron (Fe), or manganese sulfide (MnS) clouds. For these species, we performed a detailed investigation of cloud formation in high metallicity, high-temperature atmospheres. Our results highlight that HD 86226 c does not follow the aerosol trend of sub-Neptunes found by previous studies. Follow-up observations with the James Webb Space Telescope could determine whether this planet aligns with the recent detections of metal-enriched atmospheres or if it harbors a cloud species that is otherwise atypical for sub-Neptunes.",

keywords = "planets, planets and satellites: atmospheres, planets and satellites: gaseous planets, satellites: individual: HD 86226 c, techniques: spectroscopic",

author = "Kahle, \{K. Angelique\} and Jasmina Blecic and Reza Ashtari and Laura Kreidberg and Yui Kawashima and Cubillos, \{Patricio E.\} and Drake Deming and Jenkins, \{James S.\} and Paul Molli{\`e}re and Seth Redfield and Tian, \{Qiushi Chris\} and Vines, \{Jose I.\} and Wilson, \{David J.\} and Lorena Acu{\~n}a and Bertram Bitsch and Jonathan Brande and Kevin France and Stevenson, \{Kevin B.\} and Crossfield, \{Ian J.M.\} and Tansu Daylan and Ian Dobbs-Dixon and Evans-Soma, \{Thomas M.\} and Cyril Gapp and \{Garc{\'i}a Mu{\~n}oz\}, Antonio and Kevin Heng and Renyu Hu and Shkolnik, \{Evgenya L.\} and Stassun, \{Keivan G.\} and Johanna Teske",

note = "Publisher Copyright: {\textcopyright} The Authors 2025.",

year = "2025",

month = sep,

day = "1",

doi = "10.1051/0004-6361/202554916",

language = "English",

volume = "701",

journal = "Astronomy and Astrophysics",

issn = "0004-6361",

}

Kahle, KA, Blecic, J, Ashtari, R, Kreidberg, L, Kawashima, Y, Cubillos, PE, Deming, D, Jenkins, JS, Mollière, P, Redfield, S, Tian, QC, Vines, JI, Wilson, DJ, Acuña, L, Bitsch, B, Brande, J, France, K, Stevenson, KB, Crossfield, IJM, Daylan, T, Dobbs-Dixon, I, Evans-Soma, TM, Gapp, C, García Muñoz, A, Heng, K, Hu, R, Shkolnik, EL, Stassun, KG & Teske, J 2025, 'The SPACE Program I. The featureless spectrum of HD 86226 c challenges sub-Neptune atmosphere trends', Astronomy and Astrophysics, vol. 701, A184. https://doi.org/10.1051/0004-6361/202554916

TY - JOUR

T1 - The SPACE Program I. The featureless spectrum of HD 86226 c challenges sub-Neptune atmosphere trends

AU - Kahle, K. Angelique

AU - Blecic, Jasmina

AU - Ashtari, Reza

AU - Kreidberg, Laura

AU - Kawashima, Yui

AU - Cubillos, Patricio E.

AU - Deming, Drake

AU - Jenkins, James S.

AU - Mollière, Paul

AU - Redfield, Seth

AU - Tian, Qiushi Chris

AU - Vines, Jose I.

AU - Wilson, David J.

AU - Acuña, Lorena

AU - Bitsch, Bertram

AU - Brande, Jonathan

AU - France, Kevin

AU - Stevenson, Kevin B.

AU - Crossfield, Ian J.M.

AU - Daylan, Tansu

AU - Dobbs-Dixon, Ian

AU - Evans-Soma, Thomas M.

AU - Gapp, Cyril

AU - García Muñoz, Antonio

AU - Heng, Kevin

AU - Hu, Renyu

AU - Shkolnik, Evgenya L.

AU - Stassun, Keivan G.

AU - Teske, Johanna

PY - 2025/9/1

Y1 - 2025/9/1

N2 - 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 have ruled 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=1311 K) sub-Neptune HD 86226 c (R=2.2 R⊕, M=7.25 M⊕), which orbits its G-type host star on a four-day orbit. The planet is located in a special part of the sub-Neptune parameter space: Its high equilibrium temperature prohibits methane-based haze formation, increasing the chances for a clear atmosphere on this planet. We used Hubble Space Telescope data taken with WFC3 and STIS from the Sub-Neptune Planetary Atmosphere Characterization Experiment (SPACE) Program to perform near-infrared (1.1–1.7 µm) transmission spectroscopy and ultraviolet characterization of the host star. We report a featureless transmission spectrum that is consistent within 0.4 σ with a constant transit depth of 418 ± 14 ppm. The amplitude of this spectrum is only 0.01 scale heights for a H/He-dominated atmosphere, excluding a cloud-free solar-metallicity atmosphere on HD 86226 c with a confidence of 6.5 σ. Based on an atmospheric retrieval analysis and forward models of cloud and haze formation, we find that the featureless spectrum could be due to metal enrichment [M/H] > 2.3 (3 σ confidence lower limit) of a cloudless atmosphere, or silicate (MgSiO3), iron (Fe), or manganese sulfide (MnS) clouds. For these species, we performed a detailed investigation of cloud formation in high metallicity, high-temperature atmospheres. Our results highlight that HD 86226 c does not follow the aerosol trend of sub-Neptunes found by previous studies. Follow-up observations with the James Webb Space Telescope could determine whether this planet aligns with the recent detections of metal-enriched atmospheres or if it harbors a cloud species that is otherwise atypical for sub-Neptunes.

AB - 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 have ruled 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=1311 K) sub-Neptune HD 86226 c (R=2.2 R⊕, M=7.25 M⊕), which orbits its G-type host star on a four-day orbit. The planet is located in a special part of the sub-Neptune parameter space: Its high equilibrium temperature prohibits methane-based haze formation, increasing the chances for a clear atmosphere on this planet. We used Hubble Space Telescope data taken with WFC3 and STIS from the Sub-Neptune Planetary Atmosphere Characterization Experiment (SPACE) Program to perform near-infrared (1.1–1.7 µm) transmission spectroscopy and ultraviolet characterization of the host star. We report a featureless transmission spectrum that is consistent within 0.4 σ with a constant transit depth of 418 ± 14 ppm. The amplitude of this spectrum is only 0.01 scale heights for a H/He-dominated atmosphere, excluding a cloud-free solar-metallicity atmosphere on HD 86226 c with a confidence of 6.5 σ. Based on an atmospheric retrieval analysis and forward models of cloud and haze formation, we find that the featureless spectrum could be due to metal enrichment [M/H] > 2.3 (3 σ confidence lower limit) of a cloudless atmosphere, or silicate (MgSiO3), iron (Fe), or manganese sulfide (MnS) clouds. For these species, we performed a detailed investigation of cloud formation in high metallicity, high-temperature atmospheres. Our results highlight that HD 86226 c does not follow the aerosol trend of sub-Neptunes found by previous studies. Follow-up observations with the James Webb Space Telescope could determine whether this planet aligns with the recent detections of metal-enriched atmospheres or if it harbors a cloud species that is otherwise atypical for sub-Neptunes.

KW - planets

KW - planets and satellites: atmospheres

KW - planets and satellites: gaseous planets

KW - satellites: individual: HD 86226 c

KW - techniques: spectroscopic

UR - https://www.scopus.com/pages/publications/105016454704

U2 - 10.1051/0004-6361/202554916

DO - 10.1051/0004-6361/202554916

M3 - Article

AN - SCOPUS:105016454704

SN - 0004-6361

VL - 701

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

M1 - A184

ER -

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

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