English

The Correlation Between Metallicity and Debris Disk mass

Solar and Stellar Astrophysics 2016-08-17 v1

Abstract

We find that the initial dust masses in planetary debris disks are correlated with the metallicities of their central stars. We compiled a large sample of systems, including Spitzer, the Herschel DUNES and DEBRIS surveys, and WISE debris disk candidates. We also merged 33 metallicity catalogs to provide homogeneous [Fe/H] and σ[Fe/H]\sigma_{[Fe/H]} values. We analyzed this merged sample, including 222 detected disks (74 warm and 148 cold) around a total of 187 systems (some with multiple components) and 440 disks with only upper limits (125 warm and 315 cold), around a total of 360 systems. The disk dust masses at a common early evolutionary point in time were determined using our numerical disk evolutionary code, evolving a unique model for each of the 662 disks backward to an age of 1 Myr. We find that disk-bearing stars seldom have metallicities less than [Fe/H] = -0.2 and that the distribution of warm component masses lacks examples with large mass around stars of low metallicity ([Fe/H] < -0.085). Previous efforts to find a correlation have been largely unsuccessful; the primary improvements supporting our result are: 1.) basing the study on dust masses, not just infrared excess detections; 2.) including upper limits on dust mass in a quantitative way; 3.) accounting for the evolution of debris disk excesses as systems age; 4.) accounting fully for the range of uncertainties in metallicity measurements; and 5.) having a statistically large enough sample.

Keywords

Cite

@article{arxiv.1604.07403,
  title  = {The Correlation Between Metallicity and Debris Disk mass},
  author = {Andras Gaspar and George H. Rieke and Nicholas Ballering},
  journal= {arXiv preprint arXiv:1604.07403},
  year   = {2016}
}

Comments

13 pages, 7 figures, accepted for publication to ApJ

R2 v1 2026-06-22T13:40:29.722Z