FAUST XII. Accretion streamers and jets in the VLA 1623-2417 protocluster

The ALMA interferometer has played a key role in revealing a new component of the Sun-like star forming process: the molecular streamers, i.e. structures up to thousands of au long funnelling material non-axisymmetrically to discs. In the context of the FAUST ALMA LP, the archetypical VLA1623-2417 protostellar cluster has been imaged at 1.3 mm in the SO(56-45), SO(66-55), and SiO(5-4) line emission at the spatial resolution of 50 au. We detect extended SO emission, peaking towards the A and B protostars. Emission blue-shifted down to 6.6 km s(-1) reveals for the first time a long (similar to 2000 au) accelerating streamer plausibly feeding the VLA1623 B protostar. Using SO, we derive for the first time an estimate of the excitation temperature of an accreting streamer: 33 +/- 9 K. The SO column density is similar to 10(14) cm(-2), and the SO/H-2 abundance ratio is similar to 10(-8). The total mass of the streamer is 3 x 10(-3)M(circle dot), while its accretion rate is 3-5 x 10(-7)M(circle dot) yr(-1). This is close to the mass accretion rate of VLA1623 B, in the 0.6-3 x 10(-7)M(circle dot) yr(-1) range, showing the importance of the streamer in contributing to the mass of protostellar discs. The highest blue- and red-shifted SO velocities behave as the SiO(5-4) emission, the latter species detected for the first time in VLA1623-2417: the emission is compact (100-200 au), and associated only with the B protostar. The SO excitation temperature is similar to 100 K, supporting the occurrence of shocks associated with the jet, traced by SiO.