ALMA detection of the rotating molecular disk wind from the young star HD 163296

TL;DR

This study uses ALMA observations to detect a rotating molecular disk wind from the young star HD 163296, revealing complex morphology and high-temperature features that suggest rapid disk dispersal.

Contribution

First detection of a rotating molecular disk wind in HD 163296 using ALMA CO emission, providing detailed morphological and physical insights.

Findings

Double corkscrew morphology of the emission.

Temperatures exceeding 900 K in compact features.

High wind mass loss rate indicating rapid disk dispersal.

Abstract

Disk winds have been postulated as a mechanism for angular momentum release in protostellar systems for decades. HD 163296 is a Herbig Ae star surrounded by a disk and has been shown to host a series of HH knots (HH 409) with bow shocks associated with the farthest knots. Here we present ALMA Science Verification data of CO J=2-1 and J=3-2 emission which are spatially coincident with the blue shifted jet of HH knots, and offset from the disk by -18.6 km/s. The emission has a double corkscrew morphology and extends more than 10" from the disk with embedded emission clumps coincident with jet knots. We interpret this double corkscrew as emission from material in a molecular disk wind, and that the compact emission near the jet knots is being heated by the jet which is moving at much higher velocities. We show that the J=3-2 emission is likely heavily filtered by the interferometer, but the J=2-1 emission suffers less due to the larger beam and measurable angular scales. Excitation analysis suggests temperatures exceeding 900 K in these compact features, with the wind mass, momentum and energy being of order 10^{-5} M_sun, 10^{-4} M_sun km/s and 10^{40} erg respectively. The high mass loss rate suggests that this star is dispersing the disk faster than it is funneling mass onto the star.