True mass and atmospheric composition of the non-transiting hot Jupiter HD 143105 b

Abstract

We present Keck/KPIC phase II K-band observations of the non-transiting hot Jupiter HD 143105 b. Using a cross-correlation approach, we make the first detection of the planetary atmosphere at Kp = 185+11-13 km\ s-1 and an inferior conjunction time 2.5 hours before the previously-published ephemeris. The retrieved Kp value, in combination with orbital period, mass of the host star, and lack of transit detection, gives an orbital inclination of 78+2-12 and a true planet mass of 1.230.10\ MJ. While the equilibrium temperature of HD 143105 b is in the transition regime between non-inverted and inverted atmospheres, our analysis strongly prefers a non-inverted atmosphere. Retrieval analysis indicates the atmosphere of HD 143105 b is cloud-free to approximately 1 bar and dominated by H2O absorption ( H2OMMR = -3.9+0.8-0.5), placing only an upper limit on the CO abundance ( COMMR < -3.7 at 95% confidence). We place no constraints on the abundances of Fe, Mg, or 13CO. From these abundances, we place an upper limit on the carbon-to-oxygen ratio for HD 143105 b, C/O < 0.2 at 95% confidence, and find the atmospheric metallicity is approximately 0.1× solar. The low metallicity may be responsible for the lack of a thermal inversion, which at the temperature of HD 143105 b would likely require significant opacity from TiO and/or VO. With these results, HD 143105 b joins the small number of non-transiting hot Jupiters with detected atmospheres.

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