Updated Planetary Mass Constraints of the Young V1298 Tau System Using MAROON-X

Abstract

The early K-type T-Tauri star, V1298 Tau (V=10\, mag, age≈20-30\, Myr) hosts four transiting planets with radii ranging from 4.9-9.6\,R. The three inner planets have orbital periods of ≈8-24\, d while the outer planet's period is poorly constrained by single transits observed with K2 and TESS. Planets b, c, and d are proto-sub-Neptunes that may be undergoing significant mass loss. Depending on the stellar activity and planet masses, they are expected to evolve into super-Earths/sub-Neptunes that bound the radius valley. Here we present results of a joint transit and radial velocity (RV) modelling analysis, which includes recently obtained TESS photometry and MAROON-X RV measurements. Assuming circular orbits, we obtain a low-significance (≈2σ) RV detection of planet c implying a mass of 19.8-8.9+9.3\,M and a conservative 2σ upper limit of <39\,M. For planets b and d, we derive 2σ upper limits of M b<159\,M and M d<41\,M. For planet e, plausible discrete periods of P e>55.4\, d are ruled out at a 3σ level while seven solutions with 43.3<P e/ d<55.4 are consistent with the most probable 46.768131000076\, d solution within 3σ. Adopting the most probable solution yields a 2.6σ RV detection with mass a of 0.660.26\,M Jup. Comparing the updated mass and radius constraints with planetary evolution and interior structure models shows that planets b, d, and e are consistent with predictions for young gas-rich planets and that planet c is consistent with having a water-rich core with a substantial (5\% by mass) H2 envelope.