SUBMILLIMETER POLARIZATION OBSERVATION OF THE PROTOPLANETARY DISK AROUND HD 142527

ABSTRACT We present the polarization observations toward the circumstellar disk around HD 142527 by using Atacama Large Millimeter/submillimeter Array at the frequency of 343 GHz. The beam size is 0 51 × 0 44, which corresponds to the spatial resolution of ∼71 × 62 au. The polarized intensity displa...

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Published inAstrophysical journal. Letters Vol. 831; no. 2; p. L12
Main Authors Kataoka, Akimasa, Tsukagoshi, Takashi, Momose, Munetake, Nagai, Hiroshi, Muto, Takayuki, Dullemond, Cornelis P., Pohl, Adriana, Fukagawa, Misato, Shibai, Hiroshi, Hanawa, Tomoyuki, Murakawa, Koji
Format Journal Article
LanguageEnglish
Published United States The American Astronomical Society 10.11.2016
Subjects
APPROXIMATIONS
ASTROPHYSICS, COSMOLOGY AND ASTRONOMY
BEAMS
Continuums
Dust
DUSTS
EMISSION
GHZ RANGE
GRAIN SIZE
MAGNETIC FIELD CONFIGURATIONS
MAGNETIC FIELDS
Mathematical analysis
Planet formation
POLARIZATION
protoplanetary disks
PROTOPLANETS
RADIATION FLUX
SCATTERING
SPATIAL RESOLUTION
SPHERICAL CONFIGURATION
STARS
stars: individual (HD 142527)
THERMAL RADIATION
Vectors (mathematics)
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Summary:ABSTRACT We present the polarization observations toward the circumstellar disk around HD 142527 by using Atacama Large Millimeter/submillimeter Array at the frequency of 343 GHz. The beam size is 0 51 × 0 44, which corresponds to the spatial resolution of ∼71 × 62 au. The polarized intensity displays a ring-like structure with a peak located on the east side with a polarization fraction of P = 3.26 0.02%, which is different from the peak of the continuum emission from the northeast region. The polarized intensity is significantly weaker at the peak of the continuum where P = 0.220 0.010%. The polarization vectors are in the radial direction in the main ring of the polarized intensity, while there are two regions outside at the northwest and northeast areas where the vectors are in the azimuthal direction. If the polarization vectors represent the magnetic field morphology, the polarization vectors indicate the toroidal magnetic field configuration on the main ring and the poloidal fields outside. On the other hand, the flip of the polarization vectors is predicted by the self-scattering of thermal dust emission due to the change of the direction of thermal radiation flux. Therefore, we conclude that self-scattering of thermal dust emission plays a major role in producing polarization at millimeter wavelengths in this protoplanetary disk. Also, this puts a constraint on the maximum grain size to be approximately 150 m if we assume compact spherical dust grains.
Bibliography:LET34108
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ISSN:2041-8205
2041-8213
DOI:10.3847/2041-8205/831/2/L12