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ALMA detects a radial disk wind in DG Tau

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abstract

Aims: We aim to use the high spatial resolution of the Atacama Large Millimeter/submillimeter Array (ALMA) to map the flow pattern of molecular gas near DG Tau and its disk, a young stellar object driving a jet and a molecular outflow. Methods: We use observations from ALMA in the J = 2 - 1 transition of 12CO, 13CO, and C18O to study the Keplerian disk of DG Tau and outflows that may be related to the disk and the jet. Results: We find a new wind component flowing radially at a steep angle (~25 deg from the vertical) above the disk with a velocity of ~ 3.1 km/s. It continues the trend of decreasing velocity for increasing distance from the jet axis ("onion-like velocity structure"). Conclusions: The new component is located close to the protostellar disk surface and may be related to photoevaporative winds.

fields

astro-ph.SR 1

years

2026 1

verdicts

CONDITIONAL 1

representative citing papers

Ionized gas emission in protoplanetary disks with the SKAO

astro-ph.SR · 2026-07-08 · conditional · novelty 4.0

Synthetic SKA-Mid observations of simulated MHD and photoevaporative disk winds show that free-free emission is detectable in hours and stacked hydrogen recombination lines are spectrally resolvable in ~10 hours.

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Showing 1 of 1 citing paper.

  • Ionized gas emission in protoplanetary disks with the SKAO astro-ph.SR · 2026-07-08 · conditional · none · ref 30 · internal anchor

    Synthetic SKA-Mid observations of simulated MHD and photoevaporative disk winds show that free-free emission is detectable in hours and stacked hydrogen recombination lines are spectrally resolvable in ~10 hours.