Magnetic Fields Observed along the E-W Outflow of IRAS 16293-2422

Magnetic fields likely play an important role in the formation of young protostars. Multiscale and multiwavelength dust polarization observations can reveal the inferred magnetic field from scales of the cloud to core to protostar. We present continuum polarization observations of the young protoste...

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Bibliographic Details
Published in:arXiv.org 2024-05
Main Authors: Encalada, Frankie J, Looney, Leslie W, Novak, Giles, Sadavoy, Sarah, Cox, Erin G, Pereira-Santos, Fabio, Lee, Dennis, Harrison, Rachel, Pattle, Kate
Format: Article
Language:English
Subjects:
Dust
Magnetic fields
Outflow
Polarization
Protostars
Star formation
Tracing
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Summary:Magnetic fields likely play an important role in the formation of young protostars. Multiscale and multiwavelength dust polarization observations can reveal the inferred magnetic field from scales of the cloud to core to protostar. We present continuum polarization observations of the young protostellar triple system IRAS 16293-2422 at 89 \(\mu\)m using HAWC+ on SOFIA. The inferred magnetic field is very uniform with an average field angle of 89\(^\circ\pm\)23\(^\circ\) (E of N), which is different from the \(\sim\)170\(^\circ\) field morphology seen at 850 \(\mu\)m at larger scales (> 2000 au) with JCMT POL-2 and at 1.3 mm on smaller scales (< 300 au) with ALMA. The HAWC+ magnetic field direction is aligned with the known E-W outflow. This alignment difference suggests that the shorter wavelength HAWC+ data is tracing the magnetic field associated with warmer dust likely from the outflow cavity, whereas the longer wavelength data are tracing the bulk magnetic field from cooler dust. Also, we show in this source the dust emission peak is strongly affected by the observing wavelength. The dust continuum peaks closer to source B (northern source) at shorter wavelengths and progressively moves toward the southern A source with increasing wavelength (from 22 \(\mu\)m to 850 \(\mu\)m).
ISSN:2331-8422