The First X-shooter Observations of Jets from Young Stars

TL;DR

This study uses the X-shooter instrument to analyze jets from young stars, revealing detailed spectral diagnostics and comparing accretion and outflow rates in two low-mass stellar objects.

Contribution

First application of X-shooter for simultaneous spectral diagnostics of jets from young stars, providing new insights into accretion and ejection mechanisms at low stellar masses.

Findings

ESO-HA 574 has a low accretion rate but a powerful jet, suggesting disk obscuration effects.

Par-Lup3-4 shows higher accretion with a low excitation jet, consistent with magneto-centrifugal wind models.

Jet mass outflow to accretion rate ratios are within expected ranges for young stellar objects.

Abstract

We present the first pilot study of jets from young stars conducted with X-shooter, on ESO/VLT. As it offers simultaneous, high quality spectra in the range 300-2500 nm X-shooter is uniquely important for spectral diagnostics in jet studies. We chose to probe the accretion/ejection mechanisms at low stellar masses examining two targets with well resolved continuous jets lying on the plane of the sky, ESO-HA 574 in Chamaleon I, and Par-Lup3-4 in Lupus III. The mass of the latter is close to the sub-stellar boundary (Mstar=0.13 Msun). A large number of emission lines probing regions of different excitation are identified, position-velocity diagrams are presented and mass outflow/accretion rates are estimated. Comparison between the two objects is striking. ESO-HA 574 is a weakly accreting star for which we estimate a mass accretion rate of log(\dot{Macc}) = -10.8 \pm 0.5 (in Msun/yr), yet it drives a powerful jet with \dot{Mout} ~ 1.5-2.7 10^-9 Msun/yr. These values can be reconciled with a magneto-centrifugal jet acceleration mechanism only assuming that the presence of the edge-on disk severely depresses the luminosity of the accretion tracers. In comparison Par-Lup3-4 with stronger mass accretion (log(\dot{Macc}) = -9.1 \pm 0.4 Msun/yr), drives a low excitation jet with about \dot{Mout} ~ 3.2 10^-10 Msun/yr in both lobes. Despite the low stellar mass, \dot{Mout} / \dot{Macc} for Par-Lup3-4 is at the upper limit of the range usually measured for young objects, but still compatible with a steady magneto-centrifugal wind scenario if all uncertainties are considered.