Discovery of a collimated jet from the low luminosity protostar IRAS 16253-2429 in a quiescent accretion phase with the JWST

Abstract

Investigating Protostellar Accretion (IPA) is a JWST Cycle~1 GO program that uses NIRSpec IFU and MIRI MRS to obtain 2.9--28~μm spectral cubes of young, deeply embedded protostars with luminosities of 0.2 to 10,000~L and central masses of 0.15 to 12~M. In this Letter, we report the discovery of a highly collimated atomic jet from the Class~0 protostar IRAS~16253-2429, the lowest luminosity source (Lbol = 0.2 L) in the IPA program. The collimated jet is detected in multiple [Fe~II] lines, [Ne~II], [Ni~II], and H~I lines, but not in molecular emission. The atomic jet has a velocity of about 169~~15~km\,s-1, after correcting for inclination. The width of the jet increases with distance from the central protostar from 23 to~60 au, corresponding to an opening angle of 2.6~~0.5. By comparing the measured flux ratios of various fine structure lines to those predicted by simple shock models, we derive a shock speed of 54~km\,s-1 and a preshock density of 2.0×103~cm-3 at the base of the jet. From these quantities and using a suite of jet models and extinction laws we compute a mass loss rate between 0.4 -1.1×10-10~M~yr~-1. The low mass loss rate is consistent with simultaneous measurements of low mass accretion rate (2.4~~0.8~×~10-9~M~yr-1) for IRAS~16253-2429 from JWST observations (Watson et al. in prep), indicating that the protostar is in a quiescent accretion phase. Our results demonstrate that very low-mass protostars can drive highly collimated, atomic jets, even during the quiescent phase.

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