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Effects of Magnetic Field Orientations in Dense Cores on Gas Kinematics in Protostellar Envelopes
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Web of Science
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- Authors
- Issue Date
- 2022-05
- Publisher
- University of Chicago Press
- Citation
- Astrophysical Journal, Vol.930 No.1, p. 67
- Abstract
- Theoretically, misalignment between the magnetic field and rotational axis in a dense core is considered to be dynamically important in the star formation process; however, the extent of this influence remains observationally unclear. For a sample of 32 Class 0 and I protostars in the Perseus Molecular Cloud, we analyzed gas motions using (CO)-O-18 data from the SMA MASSES survey and the magnetic field structures using 850 mu m polarimetric data from the JCMT BISTRO-1 survey and archive. We do not find any significant correlation between the velocity gradients in the (CO)-O-18 emission in the protostellar envelopes at a 1000 au scale and the misalignment between the outflows and magnetic field orientations in the dense cores at a 4000 au scale, and there is also no correlation between the velocity gradients and the angular dispersions of the magnetic fields. However, a significant dependence on the misalignment angles emerges after we normalize the rotational motion by the infalling motion, where the ratios increase from less than or similar to 1 to greater than or similar to 1 with increasing misalignment angle. This suggests that the misalignment could prompt angular momentum transportation to the envelope scale but is not a dominant factor in determining the envelope rotation, and other parameters, such as mass accretion in protostellar sources, also play an important role. These results remain valid after taking into account projection effects. The comparison between our estimated angular momentum in the protostellar envelopes and the sizes of the known protostellar disks suggests that significant angular momentum is likely lost between radii of similar to 1000 and 100 au in protostellar envelopes.
- ISSN
- 0004-637X
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