OrCAS: Origins, Compositions, and Atmospheres of Sub-Neptunes. I. Survey Definition

Ian J.M. Crossfield; Alex S. Polanski; Paul Robertson; Joseph Akana Murphy; Emma V. Turtelboom; Rafael Luque; Thomas Beatty; Tansu Daylan; Howard Isaacson; Jonathan Brande; Laura Kreidberg; Natalie M. Batalha; Daniel Huber; Maleah Rhem; Courtney Dressing; Stephen R. Kane; Malik Bossett; Anna Gagnebin; Maxwell A. Kroft; Pranav H. Premnath; Claire J. Rogers; Karen A. Collins; David W. Latham; Cristilyn N. Watkins; David R. Ciardi; Steve B. Howell; Arjun B. Savel; Perry Berlind; Michael L. Calkins; Gilbert A. Esquerdo; Jessica Mink; Catherine A. Clark; Michael B. Lund; Rachel A. Matson; Mark E. Everett; Joshua E. Schlieder; Elisabeth C. Matthews; Steven Giacalone; Thomas Barclay; Roberto Zambelli; Peter Plavchan; Taylor Ellingson; Michael Bowen; Gregor Srdoc; Kim K. McLeod; Richard P. Schwarz; Khalid Barkaoui; Jacob Kamler; Felipe Murgas; Enric Palle; Norio Narita; Akihiko Fukui; Howard M. Relles; Allyson Bieryla; Eric Girardin; Bob Massey; Chris Stockdale; Pablo Lewin; Riccardo Papini; Pere Guerra; Dennis M. Conti; Selçuk Yalçinkaya; Özgür Baştürk; Ghachoui Mourad

doi:10.3847/1538-3881/ad9aa6

OrCAS: Origins, Compositions, and Atmospheres of Sub-Neptunes. I. Survey Definition

Ian J.M. Crossfield
, Alex S. Polanski
, Paul Robertson
, Joseph Akana Murphy
, Emma V. Turtelboom
, Rafael Luque
, Thomas Beatty
, Tansu Daylan
, Howard Isaacson
, Jonathan Brande
, Laura Kreidberg
, Natalie M. Batalha
, Daniel Huber
, Maleah Rhem
, Courtney Dressing
, Stephen R. Kane
, Malik Bossett
, Anna Gagnebin
, Maxwell A. Kroft
, Pranav H. Premnath

Claire J. Rogers, Karen A. Collins, David W. Latham, Cristilyn N. Watkins, David R. Ciardi, Steve B. Howell, Arjun B. Savel, Perry Berlind, Michael L. Calkins, Gilbert A. Esquerdo, Jessica Mink, Catherine A. Clark, Michael B. Lund, Rachel A. Matson, Mark E. Everett, Joshua E. Schlieder, Elisabeth C. Matthews, Steven Giacalone, Thomas Barclay, Roberto Zambelli, Peter Plavchan, Taylor Ellingson, Michael Bowen, Gregor Srdoc, Kim K. McLeod, Richard P. Schwarz, Khalid Barkaoui, Jacob Kamler, Felipe Murgas, Enric Palle, Norio Narita, Akihiko Fukui, Howard M. Relles, Allyson Bieryla, Eric Girardin, Bob Massey, Chris Stockdale, Pablo Lewin, Riccardo Papini, Pere Guerra, Dennis M. Conti, Selçuk Yalçinkaya, Özgür Baştürk, Ghachoui Mourad

Department of Physics

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

3 Scopus citations

Abstract

Sub-Neptunes—volatile-rich exoplanets smaller than Neptune—are intrinsically the most common type of planet known. However, the formation and nature of these objects, as well as the distinctions between subclasses (if any), remain unclear. Two powerful tools to tease out the secrets of these worlds are measurements of (i) atmospheric composition and structure revealed by transit and/or eclipse spectroscopy, and (ii) mass, radius, and density revealed by transit photometry and Doppler spectroscopy. Here, we present OrCAS, a survey to better elucidate the origins, compositions, and atmospheres of sub-Neptunes. This radial velocity survey uses a repeatable, quantifiable metric to select targets suitable for subsequent transmission spectroscopy and address key science themes about the atmospheric and internal compositions and architectures of these systems. Our survey targets 26 systems with transiting sub-Neptune planet candidates, with the overarching goal of increasing the sample of such planets suitable for subsequent atmospheric characterization. This paper lays out our survey's science goals, defines our target prioritization metric, and performs light-curve fits and statistical validation using existing TESS photometry and ground-based follow-up observations. Our survey serves to continue expanding the sample of small exoplanets with well-measured properties orbiting nearby bright stars, ensuring fruitful studies of these systems for many years to come.

Original language	English
Article number	89
Journal	Astronomical Journal
Volume	169
Issue number	2
DOIs	https://doi.org/10.3847/1538-3881/ad9aa6
State	Published - Feb 3 2025

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Crossfield, I. J. M., Polanski, A. S., Robertson, P., Murphy, J. A., Turtelboom, E. V., Luque, R., Beatty, T., Daylan, T., Isaacson, H., Brande, J., Kreidberg, L., Batalha, N. M., Huber, D., Rhem, M., Dressing, C., Kane, S. R., Bossett, M., Gagnebin, A., Kroft, M. A., ... Mourad, G. (2025). OrCAS: Origins, Compositions, and Atmospheres of Sub-Neptunes. I. Survey Definition. Astronomical Journal, 169(2), Article 89. https://doi.org/10.3847/1538-3881/ad9aa6

@article{120c10a089f24e6da6499453b8daec1c,

title = "OrCAS: Origins, Compositions, and Atmospheres of Sub-Neptunes. I. Survey Definition",

abstract = "Sub-Neptunes—volatile-rich exoplanets smaller than Neptune—are intrinsically the most common type of planet known. However, the formation and nature of these objects, as well as the distinctions between subclasses (if any), remain unclear. Two powerful tools to tease out the secrets of these worlds are measurements of (i) atmospheric composition and structure revealed by transit and/or eclipse spectroscopy, and (ii) mass, radius, and density revealed by transit photometry and Doppler spectroscopy. Here, we present OrCAS, a survey to better elucidate the origins, compositions, and atmospheres of sub-Neptunes. This radial velocity survey uses a repeatable, quantifiable metric to select targets suitable for subsequent transmission spectroscopy and address key science themes about the atmospheric and internal compositions and architectures of these systems. Our survey targets 26 systems with transiting sub-Neptune planet candidates, with the overarching goal of increasing the sample of such planets suitable for subsequent atmospheric characterization. This paper lays out our survey's science goals, defines our target prioritization metric, and performs light-curve fits and statistical validation using existing TESS photometry and ground-based follow-up observations. Our survey serves to continue expanding the sample of small exoplanets with well-measured properties orbiting nearby bright stars, ensuring fruitful studies of these systems for many years to come.",

author = "Crossfield, \{Ian J.M.\} and Polanski, \{Alex S.\} and Paul Robertson and Murphy, \{Joseph Akana\} and Turtelboom, \{Emma V.\} and Rafael Luque and Thomas Beatty and Tansu Daylan and Howard Isaacson and Jonathan Brande and Laura Kreidberg and Batalha, \{Natalie M.\} and Daniel Huber and Maleah Rhem and Courtney Dressing and Kane, \{Stephen R.\} and Malik Bossett and Anna Gagnebin and Kroft, \{Maxwell A.\} and Premnath, \{Pranav H.\} and Rogers, \{Claire J.\} and Collins, \{Karen A.\} and Latham, \{David W.\} and Watkins, \{Cristilyn N.\} and Ciardi, \{David R.\} and Howell, \{Steve B.\} and Savel, \{Arjun B.\} and Perry Berlind and Calkins, \{Michael L.\} and Esquerdo, \{Gilbert A.\} and Jessica Mink and Clark, \{Catherine A.\} and Lund, \{Michael B.\} and Matson, \{Rachel A.\} and Everett, \{Mark E.\} and Schlieder, \{Joshua E.\} and Matthews, \{Elisabeth C.\} and Steven Giacalone and Thomas Barclay and Roberto Zambelli and Peter Plavchan and Taylor Ellingson and Michael Bowen and Gregor Srdoc and McLeod, \{Kim K.\} and Schwarz, \{Richard P.\} and Khalid Barkaoui and Jacob Kamler and Felipe Murgas and Enric Palle and Norio Narita and Akihiko Fukui and Relles, \{Howard M.\} and Allyson Bieryla and Eric Girardin and Bob Massey and Chris Stockdale and Pablo Lewin and Riccardo Papini and Pere Guerra and Conti, \{Dennis M.\} and Sel{\c c}uk Yal{\c c}inkaya and {\"O}zg{\"u}r Ba{\c s}t{\"u}rk and Ghachoui Mourad",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s). Published by the American Astronomical Society.",

year = "2025",

month = feb,

day = "3",

doi = "10.3847/1538-3881/ad9aa6",

language = "English",

volume = "169",

journal = "Astronomical Journal",

issn = "0004-6256",

number = "2",

}

Crossfield, IJM, Polanski, AS, Robertson, P, Murphy, JA, Turtelboom, EV, Luque, R, Beatty, T, Daylan, T, Isaacson, H, Brande, J, Kreidberg, L, Batalha, NM, Huber, D, Rhem, M, Dressing, C, Kane, SR, Bossett, M, Gagnebin, A, Kroft, MA, Premnath, PH, Rogers, CJ, Collins, KA, Latham, DW, Watkins, CN, Ciardi, DR, Howell, SB, Savel, AB, Berlind, P, Calkins, ML, Esquerdo, GA, Mink, J, Clark, CA, Lund, MB, Matson, RA, Everett, ME, Schlieder, JE, Matthews, EC, Giacalone, S, Barclay, T, Zambelli, R, Plavchan, P, Ellingson, T, Bowen, M, Srdoc, G, McLeod, KK, Schwarz, RP, Barkaoui, K, Kamler, J, Murgas, F, Palle, E, Narita, N, Fukui, A, Relles, HM, Bieryla, A, Girardin, E, Massey, B, Stockdale, C, Lewin, P, Papini, R, Guerra, P, Conti, DM, Yalçinkaya, S, Baştürk, Ö & Mourad, G 2025, 'OrCAS: Origins, Compositions, and Atmospheres of Sub-Neptunes. I. Survey Definition', Astronomical Journal, vol. 169, no. 2, 89. https://doi.org/10.3847/1538-3881/ad9aa6

TY - JOUR

T1 - OrCAS

T2 - Origins, Compositions, and Atmospheres of Sub-Neptunes. I. Survey Definition

AU - Crossfield, Ian J.M.

AU - Polanski, Alex S.

AU - Robertson, Paul

AU - Murphy, Joseph Akana

AU - Turtelboom, Emma V.

AU - Luque, Rafael

AU - Beatty, Thomas

AU - Daylan, Tansu

AU - Isaacson, Howard

AU - Brande, Jonathan

AU - Kreidberg, Laura

AU - Batalha, Natalie M.

AU - Huber, Daniel

AU - Rhem, Maleah

AU - Dressing, Courtney

AU - Kane, Stephen R.

AU - Bossett, Malik

AU - Gagnebin, Anna

AU - Kroft, Maxwell A.

AU - Premnath, Pranav H.

AU - Rogers, Claire J.

AU - Collins, Karen A.

AU - Latham, David W.

AU - Watkins, Cristilyn N.

AU - Ciardi, David R.

AU - Howell, Steve B.

AU - Savel, Arjun B.

AU - Berlind, Perry

AU - Calkins, Michael L.

AU - Esquerdo, Gilbert A.

AU - Mink, Jessica

AU - Clark, Catherine A.

AU - Lund, Michael B.

AU - Matson, Rachel A.

AU - Everett, Mark E.

AU - Schlieder, Joshua E.

AU - Matthews, Elisabeth C.

AU - Giacalone, Steven

AU - Barclay, Thomas

AU - Zambelli, Roberto

AU - Plavchan, Peter

AU - Ellingson, Taylor

AU - Bowen, Michael

AU - Srdoc, Gregor

AU - McLeod, Kim K.

AU - Schwarz, Richard P.

AU - Barkaoui, Khalid

AU - Kamler, Jacob

AU - Murgas, Felipe

AU - Palle, Enric

AU - Narita, Norio

AU - Fukui, Akihiko

AU - Relles, Howard M.

AU - Bieryla, Allyson

AU - Girardin, Eric

AU - Massey, Bob

AU - Stockdale, Chris

AU - Lewin, Pablo

AU - Papini, Riccardo

AU - Guerra, Pere

AU - Conti, Dennis M.

AU - Yalçinkaya, Selçuk

AU - Baştürk, Özgür

AU - Mourad, Ghachoui

PY - 2025/2/3

Y1 - 2025/2/3

N2 - Sub-Neptunes—volatile-rich exoplanets smaller than Neptune—are intrinsically the most common type of planet known. However, the formation and nature of these objects, as well as the distinctions between subclasses (if any), remain unclear. Two powerful tools to tease out the secrets of these worlds are measurements of (i) atmospheric composition and structure revealed by transit and/or eclipse spectroscopy, and (ii) mass, radius, and density revealed by transit photometry and Doppler spectroscopy. Here, we present OrCAS, a survey to better elucidate the origins, compositions, and atmospheres of sub-Neptunes. This radial velocity survey uses a repeatable, quantifiable metric to select targets suitable for subsequent transmission spectroscopy and address key science themes about the atmospheric and internal compositions and architectures of these systems. Our survey targets 26 systems with transiting sub-Neptune planet candidates, with the overarching goal of increasing the sample of such planets suitable for subsequent atmospheric characterization. This paper lays out our survey's science goals, defines our target prioritization metric, and performs light-curve fits and statistical validation using existing TESS photometry and ground-based follow-up observations. Our survey serves to continue expanding the sample of small exoplanets with well-measured properties orbiting nearby bright stars, ensuring fruitful studies of these systems for many years to come.

AB - Sub-Neptunes—volatile-rich exoplanets smaller than Neptune—are intrinsically the most common type of planet known. However, the formation and nature of these objects, as well as the distinctions between subclasses (if any), remain unclear. Two powerful tools to tease out the secrets of these worlds are measurements of (i) atmospheric composition and structure revealed by transit and/or eclipse spectroscopy, and (ii) mass, radius, and density revealed by transit photometry and Doppler spectroscopy. Here, we present OrCAS, a survey to better elucidate the origins, compositions, and atmospheres of sub-Neptunes. This radial velocity survey uses a repeatable, quantifiable metric to select targets suitable for subsequent transmission spectroscopy and address key science themes about the atmospheric and internal compositions and architectures of these systems. Our survey targets 26 systems with transiting sub-Neptune planet candidates, with the overarching goal of increasing the sample of such planets suitable for subsequent atmospheric characterization. This paper lays out our survey's science goals, defines our target prioritization metric, and performs light-curve fits and statistical validation using existing TESS photometry and ground-based follow-up observations. Our survey serves to continue expanding the sample of small exoplanets with well-measured properties orbiting nearby bright stars, ensuring fruitful studies of these systems for many years to come.

UR - https://www.scopus.com/pages/publications/85216124782

U2 - 10.3847/1538-3881/ad9aa6

DO - 10.3847/1538-3881/ad9aa6

M3 - Article

AN - SCOPUS:85216124782

SN - 0004-6256

VL - 169

JO - Astronomical Journal

JF - Astronomical Journal

IS - 2

M1 - 89

ER -

OrCAS: Origins, Compositions, and Atmospheres of Sub-Neptunes. I. Survey Definition

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