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25 April 2024 |
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Jet rotation: launching region, angular momentum balance and magnetic properties in the bipolar outflow from RW Aur | Jens Woitas
; Francesca Bacciotti
; Thomas P. Ray
; Alessandro Marconi
; Deirdre Coffey
; Jochen Eisloeffel
; | Date: |
4 Nov 2004 | Subject: | astro-ph | Affiliation: | Thueringer Landessternwarte Tautenburg, INAF-Osservatorio Astrofisico di Arcetri, Dublin Institute for Advanced Studies | Abstract: | Using STIS on board the HST we have obtained a spectroscopic map of the bipolar jet from RW Aur. We find signatures of rotation within the first 300 AU of the jet (1.’’5 from RW Aur). Both lobes rotate in the same direction (i.e. with different helicities). Toroidal velocities are in the range 5 - 30 km/s at 20 (30) AU from the symmetry axis in the blueshifted (redshifted) lobe, in line with other STIS observations and with theoretical simulations. The sense of rotation is anti-clockwise looking from the tip of the blue lobe down to the star. Rotation is more evident in the [OI] and [NII] lines and at the largest sampled distance from the axis. We derive that the mass ejected in the observed part of the outflow is accelerated from a region in the disk within about 0.5 (1.6) AU from the star for the blue (red) lobe. We estimate that the angular momentum transport rate of the jet can be two thirds or more of the estimated rate transported through the relevant portion of the disk. The magnetic lever arm (ratio rA/r0 between the Alfv`en and footpoint radii) is between 3.5 and 4.6 (accuracy 20-25%), or, the ejection index $xi$ = d ln($dot{M}_acc$) / d r is in the range 0.025 - 0.046 (same accuracy).These values are in the range predicted by the models, and suggest that some heating must be provided at the base of the flow. We also derive the ratio B_phi / B_p of the toroidal and poloidal components of the magnetic field at the observed location. B_phi / B_p = 3.8 +- 1.1 at 30 AU from the axis in the red lobe and -8.9 +- 2.7 at 20 AU from the axis in the blue lobe. The toroidal component is dominant, as predicted by magnetic collimation models. | Source: | arXiv, astro-ph/0411119 | Services: | Forum | Review | PDF | Favorites |
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