The HD 191939 Exoplanet System is Well Aligned and Flat

Jack Lubin; Erik A. Petigura; Judah Van Zandt; Corey Beard; Fei Dai; Samuel Halverson; Rae Holcomb; Andrew W. Howard; Howard Isaacson; Jacob Luhn; Paul Robertson; Ryan A. Rubenzahl; Guđmundur Stefánsson; Joshua N. Winn; Max Brodheim; William Deich; Grant M. Hill; Steven R. Gibson; Bradford Holden; Aaron Householder; Russ R. Laher; Kyle Lanclos; Joel Payne; Arpita Roy; Roger Smith; Abby P. Shaum; Christian Schwab; Josh Walawender

doi:10.3847/1538-3881/ad79ed

The HD 191939 Exoplanet System is Well Aligned and Flat

Jack Lubin, Erik A. Petigura, Judah Van Zandt, Corey Beard, Fei Dai, Samuel Halverson, Rae Holcomb, Andrew W. Howard, Howard Isaacson, Jacob Luhn, Paul Robertson, Ryan A. Rubenzahl, Guđmundur Stefánsson, Joshua N. Winn, Max Brodheim, William Deich, Grant M. Hill, Steven R. Gibson, Bradford Holden, Aaron HouseholderRuss R. Laher, Kyle Lanclos, Joel Payne, Arpita Roy, Roger Smith, Abby P. Shaum, Christian Schwab, Josh Walawender

Astrophysical Sciences

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

2 Scopus citations

Abstract

We report the sky-projected spin-orbit angle λ for HD 191939 b, the innermost planet in a six-planet system, using Keck/KPF to detect the Rossiter-McLaughlin (RM) effect. Planet b is a sub-Neptune with radius 3.4 ± 0.8 R _⊕ and mass 10.0 ± 0.7 M _⊕ with an RM amplitude <1 m s⁻¹. We find the planet is consistent with a well-aligned orbit, measuring λ = 3.°7 ± 5.°0. Additionally, we place new constraints on the mass and period of the distant super-Jupiter, planet f, finding it to be 2.88 ± 0.26 M _J on a 2898 ± 152 days orbit. With these new orbital parameters, we perform a dynamical analysis of the system and constrain the mutual inclination of the nontransiting planet e to be smaller than 12° relative to the plane shared by the inner three transiting planets. Additionally, the further planet f is inclined off this shared plane, the greater the amplitude of precession for the entire inner system, making it increasingly unlikely to measure an aligned orbit for planet b. Through this analysis, we show that this system’s wide variety of planets are all well-aligned with the star and nearly coplanar, suggesting that the system formed dynamically cold and flat out of a well-aligned protoplanetary disk, similar to our own solar system.

Original language	English (US)
Article number	196
Journal	Astronomical Journal
Volume	168
Issue number	5
DOIs	https://doi.org/10.3847/1538-3881/ad79ed
State	Published - Nov 1 2024

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/1538-3881/ad79ed

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Lubin, J., Petigura, E. A., Van Zandt, J., Beard, C., Dai, F., Halverson, S., Holcomb, R., Howard, A. W., Isaacson, H., Luhn, J., Robertson, P., Rubenzahl, R. A., Stefánsson, G., Winn, J. N., Brodheim, M., Deich, W., Hill, G. M., Gibson, S. R., Holden, B., ... Walawender, J. (2024). The HD 191939 Exoplanet System is Well Aligned and Flat. Astronomical Journal, 168(5), Article 196. https://doi.org/10.3847/1538-3881/ad79ed

@article{e6032e9341fb451b90e5f2711733c5a8,

title = "The HD 191939 Exoplanet System is Well Aligned and Flat",

abstract = "We report the sky-projected spin-orbit angle λ for HD 191939 b, the innermost planet in a six-planet system, using Keck/KPF to detect the Rossiter-McLaughlin (RM) effect. Planet b is a sub-Neptune with radius 3.4 ± 0.8 R ⊕ and mass 10.0 ± 0.7 M ⊕ with an RM amplitude <1 m s−1. We find the planet is consistent with a well-aligned orbit, measuring λ = 3.°7 ± 5.°0. Additionally, we place new constraints on the mass and period of the distant super-Jupiter, planet f, finding it to be 2.88 ± 0.26 M J on a 2898 ± 152 days orbit. With these new orbital parameters, we perform a dynamical analysis of the system and constrain the mutual inclination of the nontransiting planet e to be smaller than 12° relative to the plane shared by the inner three transiting planets. Additionally, the further planet f is inclined off this shared plane, the greater the amplitude of precession for the entire inner system, making it increasingly unlikely to measure an aligned orbit for planet b. Through this analysis, we show that this system{\textquoteright}s wide variety of planets are all well-aligned with the star and nearly coplanar, suggesting that the system formed dynamically cold and flat out of a well-aligned protoplanetary disk, similar to our own solar system.",

author = "Jack Lubin and Petigura, {Erik A.} and {Van Zandt}, Judah and Corey Beard and Fei Dai and Samuel Halverson and Rae Holcomb and Howard, {Andrew W.} and Howard Isaacson and Jacob Luhn and Paul Robertson and Rubenzahl, {Ryan A.} and Gu{\d}mundur Stef{\'a}nsson and Winn, {Joshua N.} and Max Brodheim and William Deich and Hill, {Grant M.} and Gibson, {Steven R.} and Bradford Holden and Aaron Householder and Laher, {Russ R.} and Kyle Lanclos and Joel Payne and Arpita Roy and Roger Smith and Shaum, {Abby P.} and Christian Schwab and Josh Walawender",

note = "Publisher Copyright: {\textcopyright} 2024. The Author(s). Published by the American Astronomical Society.",

year = "2024",

month = nov,

day = "1",

doi = "10.3847/1538-3881/ad79ed",

language = "English (US)",

volume = "168",

journal = "Astronomical Journal",

issn = "0004-6256",

publisher = "American Astronomical Society",

number = "5",

}

Lubin, J, Petigura, EA, Van Zandt, J, Beard, C, Dai, F, Halverson, S, Holcomb, R, Howard, AW, Isaacson, H, Luhn, J, Robertson, P, Rubenzahl, RA, Stefánsson, G, Winn, JN, Brodheim, M, Deich, W, Hill, GM, Gibson, SR, Holden, B, Householder, A, Laher, RR, Lanclos, K, Payne, J, Roy, A, Smith, R, Shaum, AP, Schwab, C & Walawender, J 2024, 'The HD 191939 Exoplanet System is Well Aligned and Flat', Astronomical Journal, vol. 168, no. 5, 196. https://doi.org/10.3847/1538-3881/ad79ed

TY - JOUR

T1 - The HD 191939 Exoplanet System is Well Aligned and Flat

AU - Lubin, Jack

AU - Petigura, Erik A.

AU - Van Zandt, Judah

AU - Beard, Corey

AU - Dai, Fei

AU - Halverson, Samuel

AU - Holcomb, Rae

AU - Howard, Andrew W.

AU - Isaacson, Howard

AU - Luhn, Jacob

AU - Robertson, Paul

AU - Rubenzahl, Ryan A.

AU - Stefánsson, Guđmundur

AU - Winn, Joshua N.

AU - Brodheim, Max

AU - Deich, William

AU - Hill, Grant M.

AU - Gibson, Steven R.

AU - Holden, Bradford

AU - Householder, Aaron

AU - Laher, Russ R.

AU - Lanclos, Kyle

AU - Payne, Joel

AU - Roy, Arpita

AU - Smith, Roger

AU - Shaum, Abby P.

AU - Schwab, Christian

AU - Walawender, Josh

PY - 2024/11/1

Y1 - 2024/11/1

N2 - We report the sky-projected spin-orbit angle λ for HD 191939 b, the innermost planet in a six-planet system, using Keck/KPF to detect the Rossiter-McLaughlin (RM) effect. Planet b is a sub-Neptune with radius 3.4 ± 0.8 R ⊕ and mass 10.0 ± 0.7 M ⊕ with an RM amplitude <1 m s−1. We find the planet is consistent with a well-aligned orbit, measuring λ = 3.°7 ± 5.°0. Additionally, we place new constraints on the mass and period of the distant super-Jupiter, planet f, finding it to be 2.88 ± 0.26 M J on a 2898 ± 152 days orbit. With these new orbital parameters, we perform a dynamical analysis of the system and constrain the mutual inclination of the nontransiting planet e to be smaller than 12° relative to the plane shared by the inner three transiting planets. Additionally, the further planet f is inclined off this shared plane, the greater the amplitude of precession for the entire inner system, making it increasingly unlikely to measure an aligned orbit for planet b. Through this analysis, we show that this system’s wide variety of planets are all well-aligned with the star and nearly coplanar, suggesting that the system formed dynamically cold and flat out of a well-aligned protoplanetary disk, similar to our own solar system.

AB - We report the sky-projected spin-orbit angle λ for HD 191939 b, the innermost planet in a six-planet system, using Keck/KPF to detect the Rossiter-McLaughlin (RM) effect. Planet b is a sub-Neptune with radius 3.4 ± 0.8 R ⊕ and mass 10.0 ± 0.7 M ⊕ with an RM amplitude <1 m s−1. We find the planet is consistent with a well-aligned orbit, measuring λ = 3.°7 ± 5.°0. Additionally, we place new constraints on the mass and period of the distant super-Jupiter, planet f, finding it to be 2.88 ± 0.26 M J on a 2898 ± 152 days orbit. With these new orbital parameters, we perform a dynamical analysis of the system and constrain the mutual inclination of the nontransiting planet e to be smaller than 12° relative to the plane shared by the inner three transiting planets. Additionally, the further planet f is inclined off this shared plane, the greater the amplitude of precession for the entire inner system, making it increasingly unlikely to measure an aligned orbit for planet b. Through this analysis, we show that this system’s wide variety of planets are all well-aligned with the star and nearly coplanar, suggesting that the system formed dynamically cold and flat out of a well-aligned protoplanetary disk, similar to our own solar system.

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U2 - 10.3847/1538-3881/ad79ed

DO - 10.3847/1538-3881/ad79ed

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SN - 0004-6256

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JO - Astronomical Journal

JF - Astronomical Journal

IS - 5

M1 - 196

ER -

The HD 191939 Exoplanet System is Well Aligned and Flat

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