Astrophys. J., 864, 81-81 (2018/September-1)
Two different grain size distributions within the protoplanetary disk around HD 142527 revealed by ALMA polarization observation.
OHASHI S., KATAOKA A., NAGAI H., MOMOSE M., MUTO T., HANAWA T., FUKAGAWA M., TSUKAGOSHI T., MURAKAWA K. and SHIBAI H.
Abstract (from CDS):
The origin of polarized emission from protoplanetary disks is uncertain. Three mechanisms have been proposed for this polarized emission: grain alignment with magnetic fields, grain alignment with radiation gradients, and self-scattering of thermal dust emission. Aiming to observationally identify the polarization mechanisms, we present ALMA polarization observations of the 0.87 mm dust continuum emission toward the circumstellar disk around HD 142527 with high spatial resolution. We confirm that the polarization vectors in the northern region are consistent with self-scattering. Furthermore, we show that the polarization vectors in the southern region are consistent with grain alignment by magnetic fields, although self-scattering cannot be ruled out. To understand the differences between the polarization mechanisms, we propose a simple grain size segregation model: small dust grains (<=100 µm) are dominant and aligned with magnetic fields in the southern region, and middle-sized (∼100 µm) grains in the upper layer emit self-scattered polarized emission in the northern region. The grain size near the middle plane in the northern region cannot be measured because the emission at 0.87 mm is optically thick. However, it can be speculated that larger dust grains (>=cm) may accumulate near this plane. These results are consistent with those of a previous analysis of the disk, in which large grain accumulation and optically thick emission from the northern region were found. This model is also consistent with theories where smaller dust grains are aligned with magnetic fields. The magnetic fields are toroidal, at least in the southern region.
© 2018. The American Astronomical Society. All rights reserved.
polarization - protoplanetary disks - stars: individual: HD 142527
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