Characterization of the planetary system Kepler-101 with HARPS-N: a hot super-Neptune with an Earth-sized low-mass companion

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Characterization of the planetary system Kepler-101 with HARPS-N : a hot super-Neptune with an Earth-sized low-mass companion. / Bonomo, A. S.; Sozzetti, A.; Lovis, C.; Malavolta, L.; Rice, K.; Buchhave, Lars A.; Sasselov, D.; Cameron, A. C.; Latham, D. W.; Molinari, E.; Pepe, F.; Udry, S.; Affer, L.; Charbonneau, D.; Cosentino, R.; Dressing, C. D.; Dumusque, X.; Figueira, P.; Fiorenzano, A. F. M.; Gettel, S.; Harutyunyan, A.; Haywood, R. D.; Horne, K.; Lopez-Morales, M.; Mayor, M.; Micela, G.; Motalebi, F.; Nascimbeni, V.; Phillips, D. F.; Piotto, G.; Pollacco, D.; Queloz, D.; Segransan, D.; Szentgyorgyi, A.; Watson, C.

In: Astronomy & Astrophysics, Vol. 572, A2, 2014.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Bonomo, AS, Sozzetti, A, Lovis, C, Malavolta, L, Rice, K, Buchhave, LA, Sasselov, D, Cameron, AC, Latham, DW, Molinari, E, Pepe, F, Udry, S, Affer, L, Charbonneau, D, Cosentino, R, Dressing, CD, Dumusque, X, Figueira, P, Fiorenzano, AFM, Gettel, S, Harutyunyan, A, Haywood, RD, Horne, K, Lopez-Morales, M, Mayor, M, Micela, G, Motalebi, F, Nascimbeni, V, Phillips, DF, Piotto, G, Pollacco, D, Queloz, D, Segransan, D, Szentgyorgyi, A & Watson, C 2014, 'Characterization of the planetary system Kepler-101 with HARPS-N: a hot super-Neptune with an Earth-sized low-mass companion', Astronomy & Astrophysics, vol. 572, A2. https://doi.org/10.1051/0004-6361/201424617

APA

Bonomo, A. S., Sozzetti, A., Lovis, C., Malavolta, L., Rice, K., Buchhave, L. A., Sasselov, D., Cameron, A. C., Latham, D. W., Molinari, E., Pepe, F., Udry, S., Affer, L., Charbonneau, D., Cosentino, R., Dressing, C. D., Dumusque, X., Figueira, P., Fiorenzano, A. F. M., ... Watson, C. (2014). Characterization of the planetary system Kepler-101 with HARPS-N: a hot super-Neptune with an Earth-sized low-mass companion. Astronomy & Astrophysics, 572, [A2]. https://doi.org/10.1051/0004-6361/201424617

Vancouver

Bonomo AS, Sozzetti A, Lovis C, Malavolta L, Rice K, Buchhave LA et al. Characterization of the planetary system Kepler-101 with HARPS-N: a hot super-Neptune with an Earth-sized low-mass companion. Astronomy & Astrophysics. 2014;572. A2. https://doi.org/10.1051/0004-6361/201424617

Author

Bonomo, A. S. ; Sozzetti, A. ; Lovis, C. ; Malavolta, L. ; Rice, K. ; Buchhave, Lars A. ; Sasselov, D. ; Cameron, A. C. ; Latham, D. W. ; Molinari, E. ; Pepe, F. ; Udry, S. ; Affer, L. ; Charbonneau, D. ; Cosentino, R. ; Dressing, C. D. ; Dumusque, X. ; Figueira, P. ; Fiorenzano, A. F. M. ; Gettel, S. ; Harutyunyan, A. ; Haywood, R. D. ; Horne, K. ; Lopez-Morales, M. ; Mayor, M. ; Micela, G. ; Motalebi, F. ; Nascimbeni, V. ; Phillips, D. F. ; Piotto, G. ; Pollacco, D. ; Queloz, D. ; Segransan, D. ; Szentgyorgyi, A. ; Watson, C. / Characterization of the planetary system Kepler-101 with HARPS-N : a hot super-Neptune with an Earth-sized low-mass companion. In: Astronomy & Astrophysics. 2014 ; Vol. 572.

Bibtex

@article{47600f52062d4dffa6636fd06ca96362,
title = "Characterization of the planetary system Kepler-101 with HARPS-N: a hot super-Neptune with an Earth-sized low-mass companion",
abstract = "We characterize the planetary system Kepler-101 by performing a combined differential evolution Markov chain Monte Carlo analysis of Kepler data and forty radial velocities obtained with the HARPS-N spectrograph. This system was previously validated and is composed of a hot super-Neptune, Kepler-101b, and an Earth-sized planet, Kepler-101c. These two planets orbit the slightly evolved and metal-rich G-type star in 3.49 and 6.03 days, respectively. With mass Mp = 51.1-4.7+ 5.1 M⊕, radius Rp = 5.77-0.79+ 0.85 R⊕, and density ρp = 1.45-0.48+ 0.83 g cm-3, Kepler-101b is the first fully characterized super-Neptune, and its density suggests that heavy elements make up a significant fraction of its interior; more than 60% of its total mass. Kepler-101c has a radius of 1.25-0.17+ 0.19 R⊕, which implies the absence of any H/He envelope, but its mass could not be determined because of the relative faintness of the parent star for highly precise radial-velocity measurements (Kp = 13.8) and the limited number of radial velocities. The 1σ upper limit, Mp< 3.8 M⊕, excludes a pure iron composition with a probability of 68.3%. The architecture of the planetary system Kepler-101 − containing a close-in giant planet and an outer Earth-sized planet with a period ratio slightly larger than the 3:2 resonance − is certainly of interest for scenarios of planet formation and evolution. This system does not follow thepreviously reported trend that the larger planet has the longer period in the majority of Kepler systems of planet pairs with at least one Neptune-sized or larger planet.",
author = "Bonomo, {A. S.} and A. Sozzetti and C. Lovis and L. Malavolta and K. Rice and Buchhave, {Lars A.} and D. Sasselov and Cameron, {A. C.} and Latham, {D. W.} and E. Molinari and F. Pepe and S. Udry and L. Affer and D. Charbonneau and R. Cosentino and Dressing, {C. D.} and X. Dumusque and P. Figueira and Fiorenzano, {A. F. M.} and S. Gettel and A. Harutyunyan and Haywood, {R. D.} and K. Horne and M. Lopez-Morales and M. Mayor and G. Micela and F. Motalebi and V. Nascimbeni and Phillips, {D. F.} and G. Piotto and D. Pollacco and D. Queloz and D. Segransan and A. Szentgyorgyi and C. Watson",
year = "2014",
doi = "10.1051/0004-6361/201424617",
language = "English",
volume = "572",
journal = "Astronomy & Astrophysics",
issn = "0004-6361",
publisher = "E D P Sciences",

}

RIS

TY - JOUR

T1 - Characterization of the planetary system Kepler-101 with HARPS-N

T2 - a hot super-Neptune with an Earth-sized low-mass companion

AU - Bonomo, A. S.

AU - Sozzetti, A.

AU - Lovis, C.

AU - Malavolta, L.

AU - Rice, K.

AU - Buchhave, Lars A.

AU - Sasselov, D.

AU - Cameron, A. C.

AU - Latham, D. W.

AU - Molinari, E.

AU - Pepe, F.

AU - Udry, S.

AU - Affer, L.

AU - Charbonneau, D.

AU - Cosentino, R.

AU - Dressing, C. D.

AU - Dumusque, X.

AU - Figueira, P.

AU - Fiorenzano, A. F. M.

AU - Gettel, S.

AU - Harutyunyan, A.

AU - Haywood, R. D.

AU - Horne, K.

AU - Lopez-Morales, M.

AU - Mayor, M.

AU - Micela, G.

AU - Motalebi, F.

AU - Nascimbeni, V.

AU - Phillips, D. F.

AU - Piotto, G.

AU - Pollacco, D.

AU - Queloz, D.

AU - Segransan, D.

AU - Szentgyorgyi, A.

AU - Watson, C.

PY - 2014

Y1 - 2014

N2 - We characterize the planetary system Kepler-101 by performing a combined differential evolution Markov chain Monte Carlo analysis of Kepler data and forty radial velocities obtained with the HARPS-N spectrograph. This system was previously validated and is composed of a hot super-Neptune, Kepler-101b, and an Earth-sized planet, Kepler-101c. These two planets orbit the slightly evolved and metal-rich G-type star in 3.49 and 6.03 days, respectively. With mass Mp = 51.1-4.7+ 5.1 M⊕, radius Rp = 5.77-0.79+ 0.85 R⊕, and density ρp = 1.45-0.48+ 0.83 g cm-3, Kepler-101b is the first fully characterized super-Neptune, and its density suggests that heavy elements make up a significant fraction of its interior; more than 60% of its total mass. Kepler-101c has a radius of 1.25-0.17+ 0.19 R⊕, which implies the absence of any H/He envelope, but its mass could not be determined because of the relative faintness of the parent star for highly precise radial-velocity measurements (Kp = 13.8) and the limited number of radial velocities. The 1σ upper limit, Mp< 3.8 M⊕, excludes a pure iron composition with a probability of 68.3%. The architecture of the planetary system Kepler-101 − containing a close-in giant planet and an outer Earth-sized planet with a period ratio slightly larger than the 3:2 resonance − is certainly of interest for scenarios of planet formation and evolution. This system does not follow thepreviously reported trend that the larger planet has the longer period in the majority of Kepler systems of planet pairs with at least one Neptune-sized or larger planet.

AB - We characterize the planetary system Kepler-101 by performing a combined differential evolution Markov chain Monte Carlo analysis of Kepler data and forty radial velocities obtained with the HARPS-N spectrograph. This system was previously validated and is composed of a hot super-Neptune, Kepler-101b, and an Earth-sized planet, Kepler-101c. These two planets orbit the slightly evolved and metal-rich G-type star in 3.49 and 6.03 days, respectively. With mass Mp = 51.1-4.7+ 5.1 M⊕, radius Rp = 5.77-0.79+ 0.85 R⊕, and density ρp = 1.45-0.48+ 0.83 g cm-3, Kepler-101b is the first fully characterized super-Neptune, and its density suggests that heavy elements make up a significant fraction of its interior; more than 60% of its total mass. Kepler-101c has a radius of 1.25-0.17+ 0.19 R⊕, which implies the absence of any H/He envelope, but its mass could not be determined because of the relative faintness of the parent star for highly precise radial-velocity measurements (Kp = 13.8) and the limited number of radial velocities. The 1σ upper limit, Mp< 3.8 M⊕, excludes a pure iron composition with a probability of 68.3%. The architecture of the planetary system Kepler-101 − containing a close-in giant planet and an outer Earth-sized planet with a period ratio slightly larger than the 3:2 resonance − is certainly of interest for scenarios of planet formation and evolution. This system does not follow thepreviously reported trend that the larger planet has the longer period in the majority of Kepler systems of planet pairs with at least one Neptune-sized or larger planet.

U2 - 10.1051/0004-6361/201424617

DO - 10.1051/0004-6361/201424617

M3 - Journal article

VL - 572

JO - Astronomy & Astrophysics

JF - Astronomy & Astrophysics

SN - 0004-6361

M1 - A2

ER -

ID: 138811613