Probing the Heights and Depths of Y Dwarf Atmospheres : A Retrieval Analysis of the JWST Spectral Energy Distribution of WISE J035934.06$-$540154.6

Kothari, Harshil, Cushing, Michael C., Burningham, Ben, Beiler, Samuel A., Kirkpatrick, J. Davy, Schneider, Adam C., Mukherjee, Sagnick and Marley, Mark S. (2024) Probing the Heights and Depths of Y Dwarf Atmospheres : A Retrieval Analysis of the JWST Spectral Energy Distribution of WISE J035934.06$-$540154.6. ISSN 0004-637X
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We present an atmospheric retrieval analysis of the Y0 brown dwarf WISE J035934.06−540154.6 using the low-resolution 0.96-12 μm James Webb Space Telescope (JWST) spectrum presented in Beiler et al. We obtain volume number mixing ratios of the major gas-phase absorbers (H 2O, CH 4, CO, CO 2, PH 3, and H 2S) that are three to five times more precise than previous work that used Hubble Space Telescope (HST) spectra. We also find an order-of-magnitude improvement in the precision of the retrieved thermal profile, a direct result of the broad wavelength coverage of the JWST data. We used the retrieved thermal profile and surface gravity to generate a grid of chemical forward models with varying metallicity, (C/O) atm, and strengths of vertical mixing as encapsulated by the eddy diffusion coefficient K zz. Comparison of the retrieved abundances with this grid of models suggests that the deep atmosphere of WISE 0359−54 shows signs of vigorous vertical mixing with K zz = 10 9 [cm 2 s −1]. To test the sensitivity of these results to our five-knot spline thermal profile model, we performed a second retrieval using the Madhusudhan & Seager thermal profile model. While the results of the two retrievals generally agree well, we do find differences between the retrieved values of mass and volume number mixing ratio of H 2S with fractional differences of the median values of −0.64 and −0.10, respectively. In addition, the five-knot thermal profile is consistently warmer at pressure between 1 and 70 bar. Nevertheless, our results underscore the power that the broad-wavelength infrared spectra obtainable with the JWST have to characterize the atmospheres of cool brown dwarfs.

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