Chemical and Isotopic Homogeneity Between the L Dwarf CD-35 2722 B and its Early M Host Star

Abstract

CD-35 2722 B is an L dwarf companion to the nearby, 50-200 Myr old M1 dwarf CD-35 2722 A. We present a detailed analysis of both objects using high-resolution (R 35,000) K band spectroscopy from the Keck Planet Imager and Characterizer (KPIC) combined with archival photometry. With a mass of 30+5-4 MJup (planet-to-host mass ratio 0.05) and projected separation of 674 AU from its host, CD-35 2722 B likely formed via gravitational instability. We explore whether the chemical composition of the system tells a similar story. Accounting for systematic uncertainties, we find [M/H]=-0.16+0.03-0.02 (stat) 0.25 (sys) dex and 12C/13C=132+20-14 for the host, and [M/H]=0.27+0.07-0.06 (stat) 0.12 (sys) dex, 12CO/13CO=159+33-24 (stat)+40-33 (sys), and C/O = 0.55 0.01 (stat) 0.04 (sys) for the companion. The chemical compositions for the brown dwarf and host star agree within the 1.5σ level, supporting a scenario where CD-35 2722 B formed via gravitational instability. We do not find evidence for clouds on CD-35 2722 B despite it being a photometrically red mid-L dwarf and thus expected to be quite cloudy. We retrieve a temperature structure which is more isothermal than models and investigate its impact on our measurements, finding that constraining the temperature structure to self-consistent models does not significantly impact our retrieved chemical properties. Our observations highlight the need for data from complementary wavelength ranges to verify the presence of aerosols in likely cloudy L dwarfs.

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