Molecular outflow launched beyond the disk edge

Felipe O. Alves (1); Josep M. Girart (2); Paola Caselli (1); Gabriel; A. P. Franco (3); Bo Zhao (1); Wouter H. T. Vlemmings (4); Marc G. Evans (5),; Luca Ricci (6) ((1) Max-Planck-Institut f\"ur extraterrestrische Physik; (2); Institut de Ci\`encies de l'Espai (CSIC-IEEC); (3) Departamento de; F\'isica--ICEx--UFMG; (4) Onsala Space Observatory; (5) University of Leeds,; (6) Rice University)

arXiv:1707.01501·astro-ph.SR·July 19, 2017

Molecular outflow launched beyond the disk edge

Felipe O. Alves (1), Josep M. Girart (2), Paola Caselli (1), Gabriel, A. P. Franco (3), Bo Zhao (1), Wouter H. T. Vlemmings (4), Marc G. Evans (5),, Luca Ricci (6) ((1) Max-Planck-Institut f\"ur extraterrestrische Physik, (2), Institut de Ci\`encies de l'Espai (CSIC-IEEC)

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TL;DR

This study uses high-resolution ALMA observations to reveal that bipolar outflows in a Class I protostar are launched just outside the disk edge, providing insights into angular momentum removal during star formation.

Contribution

It demonstrates that bipolar outflows are launched within a narrow region outside the disk edge, near the centrifugal barrier, refining our understanding of outflow launching regions.

Findings

01

Outflows launched at ~80 AU from the disk center.

02

Outflows concentrated 90-130 AU from the disk.

03

Gas inside the outflow was accelerating.

Abstract

One of the long-standing problems of star formation is the excess of angular momentum of the parent molecular cloud. In the classical picture, a fraction of angular momentum of the circumstellar material is removed by the magneto-centrifugally driven disk wind that is launched from a wide region throughout the disk. In this work, we investigate the kinematics in the envelope-disk transition zone of the Class I object BHB07-11, in the B59 core. For this purpose, we used the Atacama Large Millimeter/submillimeter Array in extended configuration to observe the thermal dust continuum emission ( $λ_{0} \sim$ 1.3 mm) and molecular lines (CO, C $^{18}$ O and H $_{2}$ CO), which are suitable tracers of disk, envelope, and outflow dynamics at a spatial resolution of $\sim 30$ AU. We report a bipolar outflow that was launched at symmetric positions with respect to the disk ( $\sim$ 80~AU in radius),…

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