JOYS+: mid-infrared detection of gas-phase SO2 emission in a low-mass protostar. The case of NGC 1333 IRAS2A: hot core or accretion shock?

Abstract

JWST/MIRI has sharpened our infrared eyes toward the star formation process. This paper presents the first mid-infrared detection of gaseous SO2 emission in an embedded low-mass protostellar system. MIRI-MRS observations of the low-mass protostellar binary NGC 1333 IRAS2A are presented from the JWST Observations of Young protoStars (JOYS+) program, revealing emission from the SO2~3 asymmetric stretching mode at 7.35 micron. The results are compared to those derived from high-angular resolution SO2 data obtained with ALMA. The SO2 emission from the 3 band is predominantly located on 50-100 au scales around the main component of the binary, IRAS2A1. A rotational temperature of 928 K is derived from the 3 lines. This is in good agreement with the rotational temperature derived from pure rotational lines in the vibrational ground state (i.e., =0) with ALMA (1045 K). However, the emission of the 3 lines is not in LTE given that the total number of molecules predicted by a LTE model is found to be a factor 2×104 higher than what is derived for the =0 state. This difference can be explained by a vibrational temperature that is 100 K higher than the derived rotational temperature of the =0 state. The brightness temperature derived from the continuum around the 3 band of SO2 is 180 K, which confirms that the 3=1 level is not collisionally populated but rather infrared pumped by scattered radiation. This is also consistent with the non-detection of the 2 bending mode at 18-20 micron. Given the rotational temperature, the extent of the emission (100 au in radius), and the narrow line widths in the ALMA data (3.5 km/s), the SO2 in IRAS2A likely originates from ice sublimation in the central hot core around the protostar rather than from an accretion shock at the disk-envelope boundary.

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