High resolution ALMA and HST imaging of : a broad debris disc around a post-main sequence star with low-mass companions

Abstract

is a 2.5\,Gyr old K1 sub-giant star, with an eccentric exo-Jupiter at 2.8\,au and a debris disc at tens of au. We present ALMA Band 6 (1.3\,mm) and HST scattered light (0.6\,μm) images, demonstrating 's broad debris disc, covering an extent 50-180\,au in the millimetre (peaking at 110\,au), and 51-280\,au in scattered light (peaking at 73\,au). By modelling the millimetre emission, we estimate the dust mass as 0.016\,M, and constrain lower-limit planetesimal sizes as Dmax>1\,km and the planetesimal belt mass as Mdisc>1\,M. We constrain the properties of an outer body causing a linear trend in 17 years of radial velocity data to have a semi-major axis 8-66\,au and a mass (0.4-120)\,MJup. There is a large inner cavity seen in the millimetre emission, which we show is consistent with carving by such an outer massive companion with a string of lower mass planets. Our scattered light modelling shows that the dust must have a high anisotropic scattering factor (g0.8-0.9) but an inclination (i30-40\,degrees) that is inferred to be significantly lower than the i61\,degrees millimetre inclination. The origin of such a discrepancy is unclear, but could be caused by a misalignment in the micron and millimetre sized dust. We place an upper limit on the CO gas mass of MCO<(4.2-13)×10-7\,M, and show this to be consistent with levels expected from planetesimal collisions, or from CO-ice sublimation as begins its giant branch ascent.