HST spectra reveal accretion in MY Lupi

TL;DR

HST spectra reveal that MY Lupi is actively accreting material at a level comparable to similar young stellar objects, contradicting previous estimates based on optical data, and indicating less inner disc clearing.

Contribution

This study demonstrates the importance of UV observations in accurately measuring accretion rates, revealing significant accretion in MY Lupi that optical data underestimated.

Findings

MY Lupi shows substantial FUV continuum and emission lines indicating active accretion.

The accretion luminosity derived from HST data is over ten times higher than previous optical estimates.

ALMA data suggest the inner disc is less cleared than infrared observations indicated.

Abstract

The mass accretion rate is a crucial parameter for the study of the evolution of accretion discs around young low-mass stellar and substellar objects (YSOs). We revisit the case of MYLup, an object where VLT/X-Shooter data suggested a negligible mass accretion rate, and show it to be accreting on a level similar to other ClassII YSOs in Lupus based on HST observations. In our HST-COS and -STIS spectra, we find many emission lines, as well as substantial FUV continuum excess emission, which can be ascribed to active accretion. The total luminosity of the CIV 1549A doublet is 4.1$\times10^{-4}$ Lsun. Using scalings between accretion luminosity, Lacc, and CIV luminosity from the literature, we derive Lacc $\sim$2$\times10^{-1}$ Lsun, which is more than an order of magnitude higher than the upper limit estimated from the X-Shooter observations. We discuss possible reasons for the X-Shooter-HST discrepancy, the most plausible being that the low contrast between the continuum excess emission and the photospheric+chromospheric emission at optical wavelengths in MYLup hampered detection of excess emission. The luminosity of the FUV continuum and CIV lines, strong H$_{2}$ fluorescence, and a "1600 A Bump" place MYLup in the class of accreting objects with gas-rich discs. So far, MYLup is the only peculiar case in which a significant difference between the HST and X-Shooter Macc estimates exists that is not ascribable to variability. The mass accretion rate inferred from the revisited Lacc estimate is Macc $\sim$ 1( $^{+1.5}_{-0.5}$ )$\times10^{-8}$ Msun/yr. This value is consistent with the typical value derived for accreting YSOs of similar mass in Lupus and points to less clearing of the inner disc than indicated by near- and mid-infrared observations. This is confirmed by ALMA data, which show that the gaps and rings seen in the sub-millimetre are relatively shallow.