A Reanalysis of the Composition of K2-106b: an Ultra-short Period Super-Mercury Candidate

Abstract

We present a reanalysis of the K2-106 transiting planetary system, with a focus on the composition of K2-106b, an ultra-short period, super-Mercury candidate. We globally model existing photometric and radial velocity data and derive a planetary mass and radius for K2-106b of Mp = 8.531.02~M and Rp = 1.71+0.069-0.057~R, which leads to a density of p = 9.4+1.6-1.5 g~cm-3, a significantly lower value than previously reported in the literature. We use planet interior models that assume a two-layer planet comprised of a liquid, pure Fe core and iron-free, MgSiO3 mantle, and we determine the range of core mass fractions that are consistent with the observed mass and radius. We use existing high-resolution spectra of the host star to derive Fe/Mg/Si abundances ([Fe/H]=-0.03 0.01, [Mg/H]= 0.04 0.02, [Si/H]=0.03 0.06) to infer the composition of K2-106b. We find that although K2-106b has a high density and core mass fraction (44+12-15\%) compared to the Earth (33\%), its composition is consistent with what is expected assuming that it reflects the relative refractory abundances of its host star. K2-106b is therefore unlikely to be a super-Mercury, as has been suggested in previous literature.