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Astron. Astrophys. 351, 1103-1114 (1999)

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Jet driven molecular outflows in Orion

A. Rodríguez-Franco 1,2, J. Martín-Pintado 2 and T.L. Wilson 3,4

1 Departamento de Matemática Aplicada II, Sección departamental de Optica, Escuela Universitaria de Optica, Universidad Complutense de Madrid. Av. Arcos de Jalón s/n. 28037 Madrid, Spain
2 Observatorio Astronómico Nacional (IGN), Campus Universitario, Apdo. 1143, 28800 Alcalá de Henares, Spain
3 Max-Planck-Institut für Radioastronomie, Postfach 2024, 53010 Bonn, Germany
4 Sub-mm Telescope Observatory, Steward Observatory, The University of Arizona, Tucson, AZ 85721, USA

Received 26 July 1999 / Accepted 22 September 1999

Abstract

We present high sensitivity and high angular resolution images of the high velocity ([FORMULA]km s-1) CO emission in the [FORMULA] and [FORMULA] lines of the Orion KL region. These results reveal the morphology of the high-velocity CO emission at the most extreme velocities. High velocity emission has only been detected in two regions: BN/KL (IRc2/I) and Orion-S.

The Orion-S region contains a very young (dynamical age of [FORMULA]years), very fast ([FORMULA]km s-1) and very compact ([FORMULA] [FORMULA]pc) bipolar outflow. From the morphology of the high-velocity gas we estimate that the position of the powering source must be [FORMULA] north of FIR[FORMULA]. So far, the exciting source of this outflow has not been detected. For the IRc2/I molecular outflow the morphology of the moderate velocity ([FORMULA] 60 km s-1) gas shows a weak bipolarity around IRc2/I. The gas at the most extreme velocities does not show any bipolarity around IRc2/I, if any, it is found [FORMULA] north from these sources. The blue and redshifted gas at moderate velocities shows similar spatial distribution with a systematic trend for the size of the high-velocity gas to decrease as the terminal radial velocity increases. The same trend is also found for the jet driven molecular outflows L 1448 and IRAS[FORMULA]. The size-velocity relationship is fitted with a simple velocity law which considers a highly collimated jet and entrained material outside the jet moving in the radial direction. We also find that most of the CO outflowing at moderate velocities is located at the head of the jet. Our results and the spatial distribution and kinematics of the shock tracers in this outflow can be explained if the IRc2/I outflow is driven by a precessing jet oriented along the line of sight. The implication of these findings in the evolution of molecular outflows is discussed.

Key words: ISM: clouds – ISM: individual objects: Orion A – ISM: jets and outflows – stars: formation – stars: mass-loss

Send offprint requests to: A. Rodríguez-Franco to the IGN address

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© European Southern Observatory (ESO) 1999

Online publication: November 16, 1999
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