Masses, revised radii, and a third planet candidate in the 'Inverted' planetary system around TOI-1266

Ryan Cloutier; Michael Greklek-Mckeon; Serena Wurmser; Collin Cherubim; Erik Gillis; Andrew Vanderburg; Sam Hadden; Charles Cadieux; Étienne Artigau; Shreyas Vissapragada; Annelies Mortier; Mercedes López-Morales; David W. Latham; Heather Knutson; Raphaëlle D. Haywood; Enric Pallé; René Doyon; Neil Cook; Gloria Andreuzzi; Massimo Cecconi; Rosario Cosentino; Adriano Ghedina; Avet Harutyunyan; Matteo Pinamonti; Manu Stalport; Mario Damasso; Federica Rescigno; Thomas G. Wilson; Lars A. Buchhave; David Charbonneau; Andrew Collier Cameron; Xavier Dumusque; Christophe Lovis; Michel Mayor; Emilio Molinari; Francesco Pepe; Giampaolo Piotto; Ken Rice; Dimitar Sasselov; Damien Ségransan; Alessandro Sozzetti; Stéphane Udry; Chris A. Watson

doi:10.1093/mnras/stad3450

Masses, revised radii, and a third planet candidate in the 'Inverted' planetary system around TOI-1266

Ryan Cloutier^*, Michael Greklek-Mckeon, Serena Wurmser, Collin Cherubim, Erik Gillis, Andrew Vanderburg, Sam Hadden, Charles Cadieux, Étienne Artigau, Shreyas Vissapragada, Annelies Mortier, Mercedes López-Morales, David W. Latham, Heather Knutson, Raphaëlle D. Haywood, Enric Pallé, René Doyon, Neil Cook, Gloria Andreuzzi, Massimo CecconiRosario Cosentino, Adriano Ghedina, Avet Harutyunyan, Matteo Pinamonti, Manu Stalport, Mario Damasso, Federica Rescigno, Thomas G. Wilson, Lars A. Buchhave, David Charbonneau, Andrew Collier Cameron, Xavier Dumusque, Christophe Lovis, Michel Mayor, Emilio Molinari, Francesco Pepe, Giampaolo Piotto, Ken Rice, Dimitar Sasselov, Damien Ségransan, Alessandro Sozzetti, Stéphane Udry, Chris A. Watson

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

31 Downloads (Pure)

Abstract

Is the population of close-in planets orbiting M dwarfs sculpted by thermally driven escape or is it a direct outcome of the planet formation process? A number of recent empirical results strongly suggest the latter. However, the unique architecture of the TOI-1266 system presents a challenge to models of planet formation and atmospheric escape given its seemingly ‘inverted’ architecture of a large sub-Neptune (P_b = 10.9 d, ⁠) orbiting interior to that of the system’s smaller planet (P_c = 18.8 d, ⁠). Here, we present revised planetary radii based on new TESS and diffuser-assisted ground-based transit observations, and characterize both planetary masses using a set of 145 radial velocity measurements from HARPS-N (⁠⁠). Our analysis also reveals a third planet candidate (P_d = 32.3 d, ⁠), which if real, would form a chain of near 5:3 period ratios, although the system is likely not in a mean motion resonance. Our results indicate that TOI-1266 b and c are among the lowest density sub-Neptunes around M dwarfs and likely exhibit distinct bulk compositions of a gas-enveloped terrestrial (X_env,b = 5.5 ± 0.7 per cent) and a water-rich world (WMF_c = 59 ± 14 per cent), which is supported by hydrodynamic escape models. If distinct bulk compositions are confirmed through atmospheric characterization, the system’s unique architecture would represent an interesting test case of inside-out sub-Neptune formation at pebble traps.

Original language	English
Journal	Monthly Notices of the Royal Astronomical Society
Volume	527
Issue number	3
Pages (from-to)	5464-5483
ISSN	0035-8711
DOIs	https://doi.org/10.1093/mnras/stad3450
Publication status	Published - 2024

Keywords

Planets and satellites: composition
Planets and satellites: formation
Stars: individual: TOI-1266
Stars: low-mass
Techniques: photometric
Techniques: radial velocities

Access to Document

10.1093/mnras/stad3450Licence: CC BY

FulltextFinal published version, 3.42 MBLicence: CC BY

OpenUrl availability

Full text

Cite this

Cloutier, R., Greklek-Mckeon, M., Wurmser, S., Cherubim, C., Gillis, E., Vanderburg, A., Hadden, S., Cadieux, C., Artigau, É., Vissapragada, S., Mortier, A., López-Morales, M., Latham, D. W., Knutson, H., Haywood, R. D., Pallé, E., Doyon, R., Cook, N., Andreuzzi, G., ... Watson, C. A. (2024). Masses, revised radii, and a third planet candidate in the 'Inverted' planetary system around TOI-1266. Monthly Notices of the Royal Astronomical Society, 527(3), 5464-5483. https://doi.org/10.1093/mnras/stad3450

@article{cd73dfe577b24691b7bd471cd17b528b,

title = "Masses, revised radii, and a third planet candidate in the 'Inverted' planetary system around TOI-1266",

abstract = "Is the population of close-in planets orbiting M dwarfs sculpted by thermally driven escape or is it a direct outcome of the planet formation process? A number of recent empirical results strongly suggest the latter. However, the unique architecture of the TOI-1266 system presents a challenge to models of planet formation and atmospheric escape given its seemingly {\textquoteleft}inverted{\textquoteright} architecture of a large sub-Neptune (Pb = 10.9 d, ⁠) orbiting interior to that of the system{\textquoteright}s smaller planet (Pc = 18.8 d, ⁠). Here, we present revised planetary radii based on new TESS and diffuser-assisted ground-based transit observations, and characterize both planetary masses using a set of 145 radial velocity measurements from HARPS-N (⁠⁠). Our analysis also reveals a third planet candidate (Pd = 32.3 d, ⁠), which if real, would form a chain of near 5:3 period ratios, although the system is likely not in a mean motion resonance. Our results indicate that TOI-1266 b and c are among the lowest density sub-Neptunes around M dwarfs and likely exhibit distinct bulk compositions of a gas-enveloped terrestrial (Xenv,b = 5.5 ± 0.7 per cent) and a water-rich world (WMFc = 59 ± 14 per cent), which is supported by hydrodynamic escape models. If distinct bulk compositions are confirmed through atmospheric characterization, the system{\textquoteright}s unique architecture would represent an interesting test case of inside-out sub-Neptune formation at pebble traps.",

keywords = "Planets and satellites: composition, Planets and satellites: formation, Stars: individual: TOI-1266, Stars: low-mass, Techniques: photometric, Techniques: radial velocities",

author = "Ryan Cloutier and Michael Greklek-Mckeon and Serena Wurmser and Collin Cherubim and Erik Gillis and Andrew Vanderburg and Sam Hadden and Charles Cadieux and {\'E}tienne Artigau and Shreyas Vissapragada and Annelies Mortier and Mercedes L{\'o}pez-Morales and Latham, {David W.} and Heather Knutson and Haywood, {Rapha{\"e}lle D.} and Enric Pall{\'e} and Ren{\'e} Doyon and Neil Cook and Gloria Andreuzzi and Massimo Cecconi and Rosario Cosentino and Adriano Ghedina and Avet Harutyunyan and Matteo Pinamonti and Manu Stalport and Mario Damasso and Federica Rescigno and Wilson, {Thomas G.} and Buchhave, {Lars A.} and David Charbonneau and Cameron, {Andrew Collier} and Xavier Dumusque and Christophe Lovis and Michel Mayor and Emilio Molinari and Francesco Pepe and Giampaolo Piotto and Ken Rice and Dimitar Sasselov and Damien S{\'e}gransan and Alessandro Sozzetti and St{\'e}phane Udry and Watson, {Chris A.}",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.",

year = "2024",

doi = "10.1093/mnras/stad3450",

language = "English",

volume = "527",

pages = "5464--5483",

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

issn = "0035-8711",

publisher = "Oxford University Press",

number = "3",

}

Cloutier, R, Greklek-Mckeon, M, Wurmser, S, Cherubim, C, Gillis, E, Vanderburg, A, Hadden, S, Cadieux, C, Artigau, É, Vissapragada, S, Mortier, A, López-Morales, M, Latham, DW, Knutson, H, Haywood, RD, Pallé, E, Doyon, R, Cook, N, Andreuzzi, G, Cecconi, M, Cosentino, R, Ghedina, A, Harutyunyan, A, Pinamonti, M, Stalport, M, Damasso, M, Rescigno, F, Wilson, TG, Buchhave, LA, Charbonneau, D, Cameron, AC, Dumusque, X, Lovis, C, Mayor, M, Molinari, E, Pepe, F, Piotto, G, Rice, K, Sasselov, D, Ségransan, D, Sozzetti, A, Udry, S & Watson, CA 2024, 'Masses, revised radii, and a third planet candidate in the 'Inverted' planetary system around TOI-1266', Monthly Notices of the Royal Astronomical Society, vol. 527, no. 3, pp. 5464-5483. https://doi.org/10.1093/mnras/stad3450

TY - JOUR

T1 - Masses, revised radii, and a third planet candidate in the 'Inverted' planetary system around TOI-1266

AU - Cloutier, Ryan

AU - Greklek-Mckeon, Michael

AU - Wurmser, Serena

AU - Cherubim, Collin

AU - Gillis, Erik

AU - Vanderburg, Andrew

AU - Hadden, Sam

AU - Cadieux, Charles

AU - Artigau, Étienne

AU - Vissapragada, Shreyas

AU - Mortier, Annelies

AU - López-Morales, Mercedes

AU - Latham, David W.

AU - Knutson, Heather

AU - Haywood, Raphaëlle D.

AU - Pallé, Enric

AU - Doyon, René

AU - Cook, Neil

AU - Andreuzzi, Gloria

AU - Cecconi, Massimo

AU - Cosentino, Rosario

AU - Ghedina, Adriano

AU - Harutyunyan, Avet

AU - Pinamonti, Matteo

AU - Stalport, Manu

AU - Damasso, Mario

AU - Rescigno, Federica

AU - Wilson, Thomas G.

AU - Buchhave, Lars A.

AU - Charbonneau, David

AU - Cameron, Andrew Collier

AU - Dumusque, Xavier

AU - Lovis, Christophe

AU - Mayor, Michel

AU - Molinari, Emilio

AU - Pepe, Francesco

AU - Piotto, Giampaolo

AU - Rice, Ken

AU - Sasselov, Dimitar

AU - Ségransan, Damien

AU - Sozzetti, Alessandro

AU - Udry, Stéphane

AU - Watson, Chris A.

PY - 2024

Y1 - 2024

N2 - Is the population of close-in planets orbiting M dwarfs sculpted by thermally driven escape or is it a direct outcome of the planet formation process? A number of recent empirical results strongly suggest the latter. However, the unique architecture of the TOI-1266 system presents a challenge to models of planet formation and atmospheric escape given its seemingly ‘inverted’ architecture of a large sub-Neptune (Pb = 10.9 d, ⁠) orbiting interior to that of the system’s smaller planet (Pc = 18.8 d, ⁠). Here, we present revised planetary radii based on new TESS and diffuser-assisted ground-based transit observations, and characterize both planetary masses using a set of 145 radial velocity measurements from HARPS-N (⁠⁠). Our analysis also reveals a third planet candidate (Pd = 32.3 d, ⁠), which if real, would form a chain of near 5:3 period ratios, although the system is likely not in a mean motion resonance. Our results indicate that TOI-1266 b and c are among the lowest density sub-Neptunes around M dwarfs and likely exhibit distinct bulk compositions of a gas-enveloped terrestrial (Xenv,b = 5.5 ± 0.7 per cent) and a water-rich world (WMFc = 59 ± 14 per cent), which is supported by hydrodynamic escape models. If distinct bulk compositions are confirmed through atmospheric characterization, the system’s unique architecture would represent an interesting test case of inside-out sub-Neptune formation at pebble traps.

AB - Is the population of close-in planets orbiting M dwarfs sculpted by thermally driven escape or is it a direct outcome of the planet formation process? A number of recent empirical results strongly suggest the latter. However, the unique architecture of the TOI-1266 system presents a challenge to models of planet formation and atmospheric escape given its seemingly ‘inverted’ architecture of a large sub-Neptune (Pb = 10.9 d, ⁠) orbiting interior to that of the system’s smaller planet (Pc = 18.8 d, ⁠). Here, we present revised planetary radii based on new TESS and diffuser-assisted ground-based transit observations, and characterize both planetary masses using a set of 145 radial velocity measurements from HARPS-N (⁠⁠). Our analysis also reveals a third planet candidate (Pd = 32.3 d, ⁠), which if real, would form a chain of near 5:3 period ratios, although the system is likely not in a mean motion resonance. Our results indicate that TOI-1266 b and c are among the lowest density sub-Neptunes around M dwarfs and likely exhibit distinct bulk compositions of a gas-enveloped terrestrial (Xenv,b = 5.5 ± 0.7 per cent) and a water-rich world (WMFc = 59 ± 14 per cent), which is supported by hydrodynamic escape models. If distinct bulk compositions are confirmed through atmospheric characterization, the system’s unique architecture would represent an interesting test case of inside-out sub-Neptune formation at pebble traps.

KW - Planets and satellites: composition

KW - Planets and satellites: formation

KW - Stars: individual: TOI-1266

KW - Stars: low-mass

KW - Techniques: photometric

KW - Techniques: radial velocities

U2 - 10.1093/mnras/stad3450

DO - 10.1093/mnras/stad3450

M3 - Journal article

AN - SCOPUS:85179495810

SN - 0035-8711

VL - 527

SP - 5464

EP - 5483

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 3

ER -

Masses, revised radii, and a third planet candidate in the 'Inverted' planetary system around TOI-1266

Abstract

Keywords

Access to Document

OpenUrl availability

Fingerprint

Cite this