TESS Spots a Super-Puff: The Remarkably Low Density of TOI-1420b

Abstract

We present the discovery of TOI-1420b, an exceptionally low-density ( = 0.080.02 g cm-3) transiting planet in a P = 6.96 day orbit around a late G dwarf star. Using transit observations from TESS, LCOGT, OPM, Whitin, Wendelstein, OAUV, Ca l'Ou, and KeplerCam along with radial velocity observations from HARPS-N and NEID, we find that the planet has a radius of Rp = 11.9 0.3 R and a mass of Mp = 25.1 3.8 M. TOI-1420b is the largest-known planet with a mass less than 50M, indicating that it contains a sizeable envelope of hydrogen and helium. We determine TOI-1420b's envelope mass fraction to be fenv = 82+7-6\%, suggesting that runaway gas accretion occurred when its core was at most 4-5× the mass of the Earth. TOI-1420b is similar to the planet WASP-107b in mass, radius, density, and orbital period, so a comparison of these two systems may help reveal the origins of close-in low-density planets. With an atmospheric scale height of 1950 km, a transmission spectroscopy metric of 580, and a predicted Rossiter-McLaughlin amplitude of about 17 m s-1, TOI-1420b is an excellent target for future atmospheric and dynamical characterization.