Asset Details

MbrlCatalogueTitleDetail

Do you wish to reserve the book?

A hot-Jupiter progenitor on a super-eccentric retrograde orbit

by Stassun, Keivan , Lin, Andrea S. J. , Bender, Chad , Patel, Yatrik , Blake, Cullen H. , Libby-Roberts, Jessica , Simard, Georges , Higuera, Jesus , Everett, Mark E. , Nowak, Grzegorz , Masseron, Thomas , Dalba, Paul , Robertson, Paul , Huang, Chelsea X. , Ziegler, Carl , Schweiker, Heidi , Stevens, Daniel J. , Im, Haedam , Hebb, Leslie , Primm, Michael , Jackson, Jonathan M. , Gupta, Arvind F. , Mahadevan, Suvrath , Caldwell, Douglas , Carleo, Ilaria , Halverson, Samuel , Delamer, Megan , McElwain, Michael W. , Wisniewski, John , Will, Stefan , Golub, Eli , Klusmeyer, Jessica , Villanueva, Steven , Guillet, Bruno , Rajagopal, Jayadev , Loose, Margaret , Knight, Rachel , Giovinazzi, Mark R. , Cochran, William D. , Monson, Andrew , Wang, Xian-Yu , Alvarado-Montes, Jaime A. , Wright, Jason , Fernandez, Pipa , Schneider, Donald P. , Ninan, Joe P. , Cañas, Caleb I. , Stefánsson, Guðmundur , Logsdon, Sarah E. , Dragomir, Diana , Pepper, Joshua , Palle, Enric , Dong, Jiayin , Shimizu, Masao , Millholland, Sarah C. , Leroux, Liouba , Roy, Arpita , Sgro, Lauren , Schwab, Christian , Kanodia, Shubham

in 639/33/34/862 / 639/33/445/846 / Angular momentum / Extrasolar planets / Gas giant planets / Humanities and Social Sciences / Ice formation / Jupiter / multidisciplinary / Orbits / Oscillations / Photometric observations / Planetary orbits / Retrograde orbits / Science / Science (multidisciplinary) / Simulation / Trajectory analysis

2024

Yes Please

Hey, we have placed the reservation for you!

By the way, why not check out events that you can attend while you pick your title.

Oops! Something went wrong.

Looks like we were not able to place the reservation. Kindly try again later.

Are you sure you want to remove the book from the shelf?

A hot-Jupiter progenitor on a super-eccentric retrograde orbit

2024

Confirm

Do you wish to request the book?

A hot-Jupiter progenitor on a super-eccentric retrograde orbit

2024

Please be aware that the book you have requested cannot be checked out. If you would like to checkout this book, you can reserve another copy

How would you like to get it?

Submit

We have requested the book for you!

Your request is successful and it will be processed during the Library working hours. Please check the status of your request in My Requests.

Oops! Something went wrong.

Looks like we were not able to place your request. Kindly try again later.

Journal Article

A hot-Jupiter progenitor on a super-eccentric retrograde orbit

Stassun, Keivan,

Lin, Andrea S. J.,

Bender, Chad,

Patel, Yatrik,

Blake, Cullen H.,

Libby-Roberts, Jessica,

Simard, Georges,

Higuera, Jesus,

Everett, Mark E.,

Nowak, Grzegorz,

Masseron, Thomas,

Dalba, Paul,

Robertson, Paul,

Huang, Chelsea X.,

Ziegler, Carl,

Schweiker, Heidi,

Stevens, Daniel J.,

Im, Haedam,

Hebb, Leslie,

Primm, Michael,

Jackson, Jonathan M.,

Gupta, Arvind F.,

Mahadevan, Suvrath,

Caldwell, Douglas,

Carleo, Ilaria,

Halverson, Samuel,

Delamer, Megan,

McElwain, Michael W.,

Wisniewski, John,

Will, Stefan,

Golub, Eli,

Klusmeyer, Jessica,

Villanueva, Steven,

Guillet, Bruno,

Rajagopal, Jayadev,

Loose, Margaret,

Knight, Rachel,

Giovinazzi, Mark R.,

Cochran, William D.,

Monson, Andrew,

Wang, Xian-Yu,

Alvarado-Montes, Jaime A.,

Wright, Jason,

Fernandez, Pipa,

Schneider, Donald P.,

Ninan, Joe P.,

Cañas, Caleb I.,

Stefánsson, Guðmundur,

Logsdon, Sarah E.,

Dragomir, Diana,

Pepper, Joshua,

Palle, Enric,

Dong, Jiayin,

Shimizu, Masao,

Millholland, Sarah C.,

Leroux, Liouba,

Roy, Arpita,

Sgro, Lauren,

Schwab, Christian,

Kanodia, Shubham

2024

Overview

Giant exoplanets orbiting close to their host stars are unlikely to have formed in their present configurations 1 . These ‘hot Jupiter’ planets are instead thought to have migrated inward from beyond the ice line and several viable migration channels have been proposed, including eccentricity excitation through angular-momentum exchange with a third body followed by tidally driven orbital circularization 2 , 3 . The discovery of the extremely eccentric ( e = 0.93) giant exoplanet HD 80606 b (ref. 4 ) provided observational evidence that hot Jupiters may have formed through this high-eccentricity tidal-migration pathway 5 . However, no similar hot-Jupiter progenitors have been found and simulations predict that one factor affecting the efficacy of this mechanism is exoplanet mass, as low-mass planets are more likely to be tidally disrupted during periastron passage 6 – 8 . Here we present spectroscopic and photometric observations of TIC 241249530 b, a high-mass, transiting warm Jupiter with an extreme orbital eccentricity of e = 0.94. The orbit of TIC 241249530 b is consistent with a history of eccentricity oscillations and a future tidal circularization trajectory. Our analysis of the mass and eccentricity distributions of the transiting-warm-Jupiter population further reveals a correlation between high mass and high eccentricity. The spectroscopic and photometric observations of a high-mass, transiting warm Jupiter, TIC 241249530 b, with an orbital eccentricity of 0.94, provide evidence that hot Jupiters may have formed by means of a high-eccentricity tidal-migration pathway.

Share this book

Add to My Shelf

Publisher

Nature Publishing Group UK,Nature Publishing Group

Subject

/ Humanities and Social Sciences

/ Ice formation