Ground- A nd Space-based Detection of the Thermal Emission Spectrum of the Transiting Hot Jupiter KELT-2Ab

Danielle Piskorz; Cam Buzard; Michael R. Line; Heather A. Knutson; Björn Benneke; Nathan R. Crockett; Alexandra C. Lockwood; Geoffrey A. Blake; Travis S. Barman; Chad F. Bender; Drake Deming; John A. Johnson

doi:10.3847/1538-3881/aad781

Ground- A nd Space-based Detection of the Thermal Emission Spectrum of the Transiting Hot Jupiter KELT-2Ab

Danielle Piskorz
, Cam Buzard
, Michael R. Line
, Heather A. Knutson
, Björn Benneke
, Nathan R. Crockett
, Alexandra C. Lockwood
, Geoffrey A. Blake
, Travis S. Barman
, Chad F. Bender
, Drake Deming
, John A. Johnson

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

49 Scopus citations

Abstract

We describe the detection of water vapor in the atmosphere of the transiting hot Jupiter KELT-2Ab by treating the star-planet system as a spectroscopic binary with high-resolution, ground-based spectroscopy. We resolve the signal of the planet's motion with deep combined flux observations of the star and the planet. In total, six epochs of Keck NIRSPEC L-band observations were obtained, and the full data set was subjected to a cross-correlation analysis with a grid of self-consistent atmospheric models. We measure a radial projection of the Keplerian velocity, K _P, of 148 ± 7 km s^-1, consistent with transit measurements, and detect water vapor at 3.8σ. We combine NIRSPEC L-band data with Spitzer IRAC secondary eclipse data to further probe the metallicity and carbon-to-oxygen ratio of KELT-2Ab's atmosphere. While the NIRSPEC analysis provides few extra constraints on the Spitzer data, it does provide roughly the same constraints on metallicity and carbon-to-oxygen ratio. This bodes well for future investigations of the atmospheres of non-transiting hot Jupiters.

Original language	English (US)
Article number	133
Journal	Astronomical Journal
Volume	156
Issue number	3
DOIs	https://doi.org/10.3847/1538-3881/aad781
State	Published - Sep 2018

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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Piskorz, D., Buzard, C., Line, M. R., Knutson, H. A., Benneke, B., Crockett, N. R., Lockwood, A. C., Blake, G. A., Barman, T. S., Bender, C. F., Deming, D., & Johnson, J. A. (2018). Ground- A nd Space-based Detection of the Thermal Emission Spectrum of the Transiting Hot Jupiter KELT-2Ab. Astronomical Journal, 156(3), Article 133. https://doi.org/10.3847/1538-3881/aad781

@article{ec94121b29e449899dc8376d24610787,

title = "Ground- A nd Space-based Detection of the Thermal Emission Spectrum of the Transiting Hot Jupiter KELT-2Ab",

abstract = "We describe the detection of water vapor in the atmosphere of the transiting hot Jupiter KELT-2Ab by treating the star-planet system as a spectroscopic binary with high-resolution, ground-based spectroscopy. We resolve the signal of the planet's motion with deep combined flux observations of the star and the planet. In total, six epochs of Keck NIRSPEC L-band observations were obtained, and the full data set was subjected to a cross-correlation analysis with a grid of self-consistent atmospheric models. We measure a radial projection of the Keplerian velocity, K P, of 148 ± 7 km s-1, consistent with transit measurements, and detect water vapor at 3.8σ. We combine NIRSPEC L-band data with Spitzer IRAC secondary eclipse data to further probe the metallicity and carbon-to-oxygen ratio of KELT-2Ab's atmosphere. While the NIRSPEC analysis provides few extra constraints on the Spitzer data, it does provide roughly the same constraints on metallicity and carbon-to-oxygen ratio. This bodes well for future investigations of the atmospheres of non-transiting hot Jupiters.",

author = "Danielle Piskorz and Cam Buzard and Line, \{Michael R.\} and Knutson, \{Heather A.\} and Bj{\"o}rn Benneke and Crockett, \{Nathan R.\} and Lockwood, \{Alexandra C.\} and Blake, \{Geoffrey A.\} and Barman, \{Travis S.\} and Bender, \{Chad F.\} and Drake Deming and Johnson, \{John A.\}",

year = "2018",

month = sep,

doi = "10.3847/1538-3881/aad781",

language = "English (US)",

volume = "156",

journal = "Astronomical Journal",

issn = "0004-6256",

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T1 - Ground- A nd Space-based Detection of the Thermal Emission Spectrum of the Transiting Hot Jupiter KELT-2Ab

AU - Piskorz, Danielle

AU - Buzard, Cam

AU - Line, Michael R.

AU - Knutson, Heather A.

AU - Benneke, Björn

AU - Crockett, Nathan R.

AU - Lockwood, Alexandra C.

AU - Blake, Geoffrey A.

AU - Barman, Travis S.

AU - Bender, Chad F.

AU - Deming, Drake

AU - Johnson, John A.

PY - 2018/9

Y1 - 2018/9

N2 - We describe the detection of water vapor in the atmosphere of the transiting hot Jupiter KELT-2Ab by treating the star-planet system as a spectroscopic binary with high-resolution, ground-based spectroscopy. We resolve the signal of the planet's motion with deep combined flux observations of the star and the planet. In total, six epochs of Keck NIRSPEC L-band observations were obtained, and the full data set was subjected to a cross-correlation analysis with a grid of self-consistent atmospheric models. We measure a radial projection of the Keplerian velocity, K P, of 148 ± 7 km s-1, consistent with transit measurements, and detect water vapor at 3.8σ. We combine NIRSPEC L-band data with Spitzer IRAC secondary eclipse data to further probe the metallicity and carbon-to-oxygen ratio of KELT-2Ab's atmosphere. While the NIRSPEC analysis provides few extra constraints on the Spitzer data, it does provide roughly the same constraints on metallicity and carbon-to-oxygen ratio. This bodes well for future investigations of the atmospheres of non-transiting hot Jupiters.

AB - We describe the detection of water vapor in the atmosphere of the transiting hot Jupiter KELT-2Ab by treating the star-planet system as a spectroscopic binary with high-resolution, ground-based spectroscopy. We resolve the signal of the planet's motion with deep combined flux observations of the star and the planet. In total, six epochs of Keck NIRSPEC L-band observations were obtained, and the full data set was subjected to a cross-correlation analysis with a grid of self-consistent atmospheric models. We measure a radial projection of the Keplerian velocity, K P, of 148 ± 7 km s-1, consistent with transit measurements, and detect water vapor at 3.8σ. We combine NIRSPEC L-band data with Spitzer IRAC secondary eclipse data to further probe the metallicity and carbon-to-oxygen ratio of KELT-2Ab's atmosphere. While the NIRSPEC analysis provides few extra constraints on the Spitzer data, it does provide roughly the same constraints on metallicity and carbon-to-oxygen ratio. This bodes well for future investigations of the atmospheres of non-transiting hot Jupiters.

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ER -

Ground- A nd Space-based Detection of the Thermal Emission Spectrum of the Transiting Hot Jupiter KELT-2Ab

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