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Low abundances of TiO and VO on the dayside of KELT-9 b: Insights from ground-based photometric observations.

Authors :
Hayashi, Yuya
Narita, Norio
Fukui, Akihiko
Changeat, Quentin
Kawauchi, Kiyoe
Ikuta, Kai
Palle, Enric
Murgas, Felipe
Parviainen, Hannu
Esparza-Borges, Emma
Peláez-Torres, Alberto
Gallardo, Pedro Pablo Meni
Morello, Giuseppe
Fernández-Rodríguez, Gareb
García, Néstor Abreu
Torres, Sara Muñoz
Borrás, Yéssica Calatayud
Rodríguez, Pilar Montañés
Livingston, John H
Watanabe, Noriharu
Source :
Publications of the Astronomical Society of Japan; Oct2024, Vol. 76 Issue 5, p1131-1141, 11p
Publication Year :
2024

Abstract

We present ground-based photometric observations of secondary eclipses of the hottest known planet KELT-9 b using MuSCAT2 and Sinistro. We detect secondary eclipse signals in i and |$z_{\rm s}$| with eclipse depths of |$373^{+74}_{-75}$| and |$638^{+199}_{-178}$| parts per million, respectively. We perform an atmospheric retrieval on the emission spectrum combined with the data from HST/WFC3, Spitzer, TESS, and CHEOPS to obtain the temperature profile and chemical abundances, including TiO and VO, which have been thought to produce temperature inversion structures in the dayside of ultra-hot Jupiters. While we confirm a strong temperature inversion structure, we find low abundances of TiO and VO with mixing ratios of |$\rm {log(TiO)}=-7.80^{+0.15}_{-0.30}$| and |$\rm {log(VO)}=-9.60^{+0.64}_{-0.57}$|⁠ , respectively. The low abundances of TiO and VO are consistent with theoretical predictions for such an ultra-hot atmosphere. In such low abundances, TiO and VO have little effect on the temperature structure of the atmosphere. The abundance of |${\rm e}^{-}$|⁠ , which serves as a proxy for |${\rm H}^{-}$| ions in this study, is found to be high, with |$\rm {log(e^-)}=-4.89\pm {0.06}$|⁠. These results indicate that the temperature inversion in KELT-9 b's dayside atmosphere is likely not caused by |${\rm TiO/VO}$|⁠ , but rather by the significant abundance of |${\rm H}^{-}$| ions. The best-fitting model cannot fully explain the observed spectrum, and chemical species not included in the retrieval may introduce modeling biases. Future observations with broader wavelength coverage and higher spectral resolution are expected to provide more accurate diagnostics on the presence and abundances of |${\rm TiO/VO}$|⁠. These advanced observations will overcome the limitations of current data from HST and photometric facilities, which are constrained by narrow wavelength coverage and instrumental systematics. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00046264
Volume :
76
Issue :
5
Database :
Complementary Index
Journal :
Publications of the Astronomical Society of Japan
Publication Type :
Academic Journal
Accession number :
180267108
Full Text :
https://doi.org/10.1093/pasj/psae075