Phase Curves of Hot Neptune LTT 9779b Suggest a High-metallicity Atmosphere
Author
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Crossfield, Ian J. M.
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Dragomir, Diana
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Cowan, Nicolas B.
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Daylan, Tansu
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Wong, Ian
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Kataria, Tiffany
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Deming, Drake
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Kreidberg, Laura
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Mikal-Evans, Thomas
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Gorjian, Varoujan
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Jenkins, James Stewart
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Benneke, Bjorn
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Collins, Karen A.
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Burke, Christopher J.
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Henze, Christopher E.
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McDermott, Scott
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Mireles, Ismael
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Watanabe, David
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Wohler, Bill
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Ricker, George
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Vanderspek, Roland
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Seager, Sara
Author
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Jenkins, Jon M.
Admission date
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2021-03-25T15:45:39Z
Available date
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2021-03-25T15:45:39Z
Publication date
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2020
Cita de ítem
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Draft version October 27, 2020
es_ES
Identifier
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10.3847/2041-8213/abbc71
Identifier
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https://repositorio.uchile.cl/handle/2250/178795
Abstract
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Phase-curve measurements provide a global view of the composition, thermal structure, and dynamics of exoplanet atmospheres. Although most of the dozens of phase-curve measurements made to date are of large, massive hot Jupiters, there is considerable interest in probing the atmospheres of the smaller planets that are the more typical endproduct of the planet formation process. One such planet that is favorable for these studies is the ultrahot Neptune LTT 9779b, a rare denizen of the Neptune desert. A companion paper presents the planet's secondary eclipses and dayside thermal emission spectrum; in this work we describe the planet's optical and infrared phase curves, characterized using a combination of Spitzer and Transiting Exoplanet Survey Satellite (TESS) photometry. We detect LTT 9779b's thermal phase variations at 4.5 mu m, finding a phase amplitude of 358 106 ppm and no significant phase offset, with a longitude of peak emission occurring -10 degrees 21 degrees east of the substellar point. Combined with our secondary eclipse observations, these phase-curve measurements imply a 4.5 mu m dayside brightness temperature of 1800 120 K, a nightside brightness temperature of 700 430 K (<1350 K at 2 sigma confidence), and a day-night brightness temperature contrast of 1110 460 K. We compare our data to the predictions of 3D general circulation models calculated at multiple metallicity levels and to similar observations of hot Jupiters experiencing similar levels of stellar irradiation. Though not conclusive, our measurement of its small 4.5 mu m phase offset, the relatively large amplitude of the phase variation, and the qualitative differences between our target's dayside emission spectrum and those of hot Jupiters of similar temperatures all suggest a supersolar atmospheric metallicity for LTT 9779b, as might be expected given its size and mass. Finally, we measure the planet's transits at both 3.6 mu m and 4.5 mu m, providing a refined ephemeris (P = 0.79207022 0.00000069 days, T-0 = 2458783.51636 0.00027, BJD(TDB)) that will enable efficient scheduling of future observations to further characterize the atmosphere of this intriguing planet.
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Patrocinador
dc.description.sponsorship
National Science Foundation (NSF)
AST-1824644
NASA through Caltech/JPL grant
RSA-1610091
RSA-1006130
MIT's Kavli Institute
Comision Nacional de Investigacion Cientifica y Tecnologica (CONICYT)
CONICYT FONDECYT
1201371
Comision Nacional de Investigacion Cientifica y Tecnologica (CONICYT)
Basal AFB-170002