The watery atmosphere of HD~209458~b revealed by joint K- and L-band high-resolution spectroscopy

Abstract

We present a joint analysis of high-resolution K- and L-band observations of the benchmark hot Jupiter \ from the Keck Planet Imager and Characterizer (KPIC). One half night of observations were obtained in each bandpass covering similar pre-eclipse phases. The two epochs were then jointly analyzed using our atmospheric retrieval pipeline based on \ to constrain the atmospheric pressure-temperature profile and chemical composition. Consistent with recent results from JWST observations at lower spectral resolution, we obtain an oxygen-rich composition for \ ( C/O < 10-3 at 95\% confidence) and a lower limit on the volatile metallicity similar to the solar value ( [(C+O)/H] > -0.2 at 95\% confidence). Leveraging the large spectral grasp of the multi-band observations, we constrain the H2O mixing ratio to H2OVMR > -3.1 at 95\% confidence, and obtain 95\% upper limits on the atmospheric mixing ratios of CO (<10-4.8), CH4 (<10-4.5), NH3 (<10-5.8), H2S (<10-3.3), and HCN (<10-5.6). The limits on CH4, NH3, and HCN are consistent with recent results from JWST transmission spectroscopy, demonstrating the value of multi-band ground-based high resolution spectroscopy for precisely constraining trace species abundances in exoplanet atmospheres. The retrieved low-C/O, moderate-metallicity composition for \ is consistent with formation scenarios involving late accretion of substantial quantities of oxygen-rich refractory solids and/or ices.