Doppler Shifted Transient Sodium Detection by KECK/HIRES
Abstract
We carried out the first high-resolution transit observations of the exoplanet WASP-49 Ab with Keck/HIRES. Upon custom wavelength calibration we achieve a Doppler RV precision of < 60 m\,s-1. This is an improvement in RV stability of roughly 240 m\,s-1 with respect to the instrument standard. We report an average sodium flux residual of FNaD/ F (λ) 3.2 0.4 \% (8.0 σ) comparable to previous studies. Interestingly, an average Doppler shift of -6.2 0.5 km\,s-1 (12.4 σ) is identified offset from the exoplanet rest frame. The velocity residuals in time trace a blueshift (v, ingress -10.3 1.9 km\,s-1) to redshift (v, egress +4.1 1.5 km\,s-1) suggesting the origin of the observed sodium is unlikely from the atmosphere of the planet. The average Na light curves indicate a depth of FNaD /F (t) 0.47 0.04 % (11.7 σ) enduring 90 minutes with a half-max duration of 40.1 minutes. Frequent high-resolution spectroscopic observations will be able to characterize the periodicity of the observed Doppler shifts. Considering the origin of the transient sodium gas is of unknown geometry, a co-orbiting natural satellite may be a likely source.
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