A DEBRIS Disk Around The Planet Hosting M-star GJ581 Spatially Resolved with Herschel

TL;DR

This study spatially resolves a debris disk around the M3-type star GJ581, revealing a Kuiper Belt-like structure with high dust luminosity, and discusses its implications for planetary system stability and formation around low-mass stars.

Contribution

First spatially resolved debris disk around an old M-type star, GJ581, showing a Kuiper Belt-like structure and exploring its implications for planetary system stability.

Findings

Disk extends from 25 to over 60 AU from the star.

Dust luminosity is approximately 10^-4 of stellar luminosity.

No significant perturbation of the disk by known planets, implying possible additional unseen planets.

Abstract

Debris disks have been found primarily around intermediate and solar mass stars (spectral types A-K) but rarely around low mass M-type stars. We have spatially resolved a debris disk around the remarkable M3-type star GJ581 hosting multiple planets using deep PACS images at 70, 100 and 160 microns as part of the DEBRIS Program on the Herschel Space Observatory. This is the second spatially resolved debris disk found around an M-type star, after the one surrounding the young star AU Mic (12 Myr). However, GJ 581 is much older (2-8 Gyr), and is X-ray quiet in the ROSAT data. We fit an axisymmetric model of the disk to the three PACS images and found that the best fit model is for a disk extending radially from 25+/-12 AU to more than 60 AU. Such a cold disk is reminiscent of the Kuiper Belt but it surrounds a low mass star (0.3 M_sol) and its fractional dust luminosity L_dust/L_* of \sim 10^-4 is much higher. The inclination limits of the disk found in our analysis make the masses of the planets small enough to ensure the long-term stability of the system according to some dynamical simulations. The disk is collisionally dominated down to submicron-sized grains and the dust cannot be expelled from the system by radiation or wind pressures because of the low luminosity and low X-ray luminosity of GJ581. We suggest that the correlation between low-mass planets and debris disks recently found for G-type stars also applies to M-type stars.Finally, the known planets, of low masses and orbiting within 0.3 AU from the star, cannot dynamically perturb the disk over the age of the star, suggesting that an additional planet exists at larger distance that is stirring the disk to replenish the dust.