The Comprehensive Archive of Substellar and Planetary Accretion Rates

Abstract

Accretion rates (M) of young stars show a strong correlation with object mass (M); however, extension of the M-M relation into the substellar regime is less certain. Here, we present the Comprehensive Archive of Substellar and Planetary Accretion Rates (CASPAR), the largest to-date compilation of substellar accretion diagnostics. CASPAR includes: 658 stars, 130 brown dwarfs, and 10 bound planetary mass companions. In this work, we investigate the contribution of methodological systematics to scatter in the M-M relation, and compare brown dwarfs to stars. In our analysis, we rederive all quantities using self-consistent models, distances, and empirical line flux to accretion luminosity scaling relations to reduce methodological systematics. This treatment decreases the original 1σ scatter in the M- M relation by 17%, suggesting that it makes only a small contribution to the dispersion. CASPAR rederived values are best fit by M M2.020.06 from 10~MJ to 2~M, confirming previous results. However, we argue that the brown dwarf and stellar populations are better described separately and by accounting for both mass and age. Therefore, we derive separate age-dependent M-M relations for these regions, and find a steepening in the brown dwarf M-M slope with age. Within this mass regime, the scatter decreases from 1.36 dex to 0.94 dex, a change of 44%. This result highlights the significant role that evolution plays in the overall spread of accretion rates, and suggests that brown dwarfs evolve faster than stars, potentially as a result of different accretion mechanisms.