Constraining small planet compositions for future missions

Larissa Palethorpe; Annelies Mortier; Jo Ann Egger; Ken Rice; Thomas G Wilson; Andrew Vanderburg; Aldo S Bonomo; Walter Boschin; Andrew Collier Cameron; Yoshi Nike Emilia Eschen; Avet Harutyunyan; Luca Malavolta; Aldo F Martínez Fiorenzano; Alessandro Sozzetti; Manu Stalport; Vincent Van Eylen; Christopher Allan Watson

doi:10.1093/mnras/stag520

Constraining small planet compositions for future missions

Larissa Palethorpe^*, Annelies Mortier, Jo Ann Egger, Ken Rice, Thomas G Wilson, Andrew Vanderburg, Aldo S Bonomo, Walter Boschin, Andrew Collier Cameron, Yoshi Nike Emilia Eschen, Avet Harutyunyan, Luca Malavolta, Aldo F Martínez Fiorenzano, Alessandro Sozzetti, Manu Stalport, Vincent Van Eylen, Christopher Allan Watson

^*Corresponding author for this work

School of Physics

Research output: Contribution to journal › Article (Academic Journal) › peer-review

Abstract

Accurate mass and radius measurements of small transiting exoplanets are essential for probing their compositions, formation histories, and potential habitability. We present a uniform analysis of six planetary systems (each hosting at least one small transiting planet): K2-79, K2-106, K2-111, K2-222, K2-263, and TOI-1634. Our study combines new CHEOPS transit observations with archival photometry from K2, TESS, and ground-based facilities, alongside new and archival radial velocity data from HARPS-N, HIRES, ESPRESSO, and others. For each system, we perform joint transit and RV modelling, achieving typical precisions better than 15 per cent and 5 per cent for mass and radius, respectively, and thus enabling precise bulk density determinations. These reveal a range of compositions, including rocky planets near the radius valley (e.g. K2-106 b, TOI-1634 b), intermediate-density planets requiring steam-rich or mixed volatile envelopes (e.g. K2-111 b, K2-263 b), and low-density regimes, consistent with gas dwarfs or water-worlds (e.g. K2-79 b, K2-222 b). Several systems show evidence of additional companions detectable via RVs but not seen in transit. The results highlight the value of coordinated CHEOPS and HARPS-N observations in delivering some of the most precise bulk densities for small planets to date and support the preparation for future atmospheric characterization missions.

Original language	English
Article number	stag520
Number of pages	30
Journal	Monthly Notices of the Royal Astronomical Society
Volume	548
Issue number	2
Early online date	24 Mar 2026
DOIs	https://doi.org/10.1093/mnras/stag520
Publication status	Published - 1 May 2026

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Publisher Copyright:
© The Author(s) 2026.

Keywords

techniques: spectroscopic
techniques: photometric
planets and satellites: composition
exoplanets

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Palethorpe, L., Mortier, A., Egger, J. A., Rice, K., Wilson, T. G., Vanderburg, A., Bonomo, A. S., Boschin, W., Cameron, A. C., Eschen, Y. N. E., Harutyunyan, A., Malavolta, L., Fiorenzano, A. F. M., Sozzetti, A., Stalport, M., Van Eylen, V., & Watson, C. A. (2026). Constraining small planet compositions for future missions. Monthly Notices of the Royal Astronomical Society, 548(2), Article stag520. https://doi.org/10.1093/mnras/stag520

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title = "Constraining small planet compositions for future missions",

abstract = "Accurate mass and radius measurements of small transiting exoplanets are essential for probing their compositions, formation histories, and potential habitability. We present a uniform analysis of six planetary systems (each hosting at least one small transiting planet): K2-79, K2-106, K2-111, K2-222, K2-263, and TOI-1634. Our study combines new CHEOPS transit observations with archival photometry from K2, TESS, and ground-based facilities, alongside new and archival radial velocity data from HARPS-N, HIRES, ESPRESSO, and others. For each system, we perform joint transit and RV modelling, achieving typical precisions better than 15 per cent and 5 per cent for mass and radius, respectively, and thus enabling precise bulk density determinations. These reveal a range of compositions, including rocky planets near the radius valley (e.g. K2-106 b, TOI-1634 b), intermediate-density planets requiring steam-rich or mixed volatile envelopes (e.g. K2-111 b, K2-263 b), and low-density regimes, consistent with gas dwarfs or water-worlds (e.g. K2-79 b, K2-222 b). Several systems show evidence of additional companions detectable via RVs but not seen in transit. The results highlight the value of coordinated CHEOPS and HARPS-N observations in delivering some of the most precise bulk densities for small planets to date and support the preparation for future atmospheric characterization missions.",

keywords = "techniques: spectroscopic, techniques: photometric, planets and satellites: composition, exoplanets",

author = "Larissa Palethorpe and Annelies Mortier and Egger, \{Jo Ann\} and Ken Rice and Wilson, \{Thomas G\} and Andrew Vanderburg and Bonomo, \{Aldo S\} and Walter Boschin and Cameron, \{Andrew Collier\} and Eschen, \{Yoshi Nike Emilia\} and Avet Harutyunyan and Luca Malavolta and Fiorenzano, \{Aldo F Mart{\'i}nez\} and Alessandro Sozzetti and Manu Stalport and Vincent Van Eylen and Watson, \{Christopher Allan\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2026.",

year = "2026",

month = may,

day = "1",

doi = "10.1093/mnras/stag520",

language = "English",

volume = "548",

journal = "Monthly Notices of the Royal Astronomical Society",

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Palethorpe, L, Mortier, A, Egger, JA, Rice, K, Wilson, TG, Vanderburg, A, Bonomo, AS, Boschin, W, Cameron, AC, Eschen, YNE, Harutyunyan, A, Malavolta, L, Fiorenzano, AFM, Sozzetti, A, Stalport, M, Van Eylen, V & Watson, CA 2026, 'Constraining small planet compositions for future missions', Monthly Notices of the Royal Astronomical Society, vol. 548, no. 2, stag520. https://doi.org/10.1093/mnras/stag520

TY - JOUR

T1 - Constraining small planet compositions for future missions

AU - Palethorpe, Larissa

AU - Mortier, Annelies

AU - Egger, Jo Ann

AU - Rice, Ken

AU - Wilson, Thomas G

AU - Vanderburg, Andrew

AU - Bonomo, Aldo S

AU - Boschin, Walter

AU - Cameron, Andrew Collier

AU - Eschen, Yoshi Nike Emilia

AU - Harutyunyan, Avet

AU - Malavolta, Luca

AU - Fiorenzano, Aldo F Martínez

AU - Sozzetti, Alessandro

AU - Stalport, Manu

AU - Van Eylen, Vincent

AU - Watson, Christopher Allan

PY - 2026/5/1

Y1 - 2026/5/1

N2 - Accurate mass and radius measurements of small transiting exoplanets are essential for probing their compositions, formation histories, and potential habitability. We present a uniform analysis of six planetary systems (each hosting at least one small transiting planet): K2-79, K2-106, K2-111, K2-222, K2-263, and TOI-1634. Our study combines new CHEOPS transit observations with archival photometry from K2, TESS, and ground-based facilities, alongside new and archival radial velocity data from HARPS-N, HIRES, ESPRESSO, and others. For each system, we perform joint transit and RV modelling, achieving typical precisions better than 15 per cent and 5 per cent for mass and radius, respectively, and thus enabling precise bulk density determinations. These reveal a range of compositions, including rocky planets near the radius valley (e.g. K2-106 b, TOI-1634 b), intermediate-density planets requiring steam-rich or mixed volatile envelopes (e.g. K2-111 b, K2-263 b), and low-density regimes, consistent with gas dwarfs or water-worlds (e.g. K2-79 b, K2-222 b). Several systems show evidence of additional companions detectable via RVs but not seen in transit. The results highlight the value of coordinated CHEOPS and HARPS-N observations in delivering some of the most precise bulk densities for small planets to date and support the preparation for future atmospheric characterization missions.

AB - Accurate mass and radius measurements of small transiting exoplanets are essential for probing their compositions, formation histories, and potential habitability. We present a uniform analysis of six planetary systems (each hosting at least one small transiting planet): K2-79, K2-106, K2-111, K2-222, K2-263, and TOI-1634. Our study combines new CHEOPS transit observations with archival photometry from K2, TESS, and ground-based facilities, alongside new and archival radial velocity data from HARPS-N, HIRES, ESPRESSO, and others. For each system, we perform joint transit and RV modelling, achieving typical precisions better than 15 per cent and 5 per cent for mass and radius, respectively, and thus enabling precise bulk density determinations. These reveal a range of compositions, including rocky planets near the radius valley (e.g. K2-106 b, TOI-1634 b), intermediate-density planets requiring steam-rich or mixed volatile envelopes (e.g. K2-111 b, K2-263 b), and low-density regimes, consistent with gas dwarfs or water-worlds (e.g. K2-79 b, K2-222 b). Several systems show evidence of additional companions detectable via RVs but not seen in transit. The results highlight the value of coordinated CHEOPS and HARPS-N observations in delivering some of the most precise bulk densities for small planets to date and support the preparation for future atmospheric characterization missions.

KW - techniques: spectroscopic

KW - techniques: photometric

KW - planets and satellites: composition

KW - exoplanets

U2 - 10.1093/mnras/stag520

DO - 10.1093/mnras/stag520

M3 - Article (Academic Journal)

SN - 0035-8711

VL - 548

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

M1 - stag520

ER -

Constraining small planet compositions for future missions

Abstract

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Keywords

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