Exploring the Magnetic Field Geometry in NGC 891 with SOFIA/HAWC+

Kim, Jin-Ah and Jones, Terry Jay and Dowell, C. Darren (2023) Exploring the Magnetic Field Geometry in NGC 891 with SOFIA/HAWC+. The Astronomical Journal, 165 (6). p. 223. ISSN 0004-6256

[thumbnail of Kim_2023_AJ_165_223.pdf] Text
Kim_2023_AJ_165_223.pdf - Published Version

Download (2MB)

Abstract

Stratospheric Observatory For Infrared Astronomy/High-resolution Airborne Wideband Camera-plus 154 μm Far-Infrared polarimetry observations of the well-studied edge-on galaxy NGC 891 are analyzed and compared to simple disk models with ordered (planar) and turbulent magnetic fields. The overall low magnitude and the narrow dispersion of fractional polarization observed in the disk require significant turbulence and a large number of turbulent decorrelation cells along the line of sight through the plane. Higher surface brightness regions along the major axis to either side of the nucleus show a further reduction in polarization and are consistent with a view tangent to a spiral feature in our disk models. The nucleus also has a similar low polarization, and this is inconsistent with our model spiral galaxy where the ordered magnetic field component would be nearly perpendicular to the line of sight through the nucleus on an edge-on view. A model with a barred spiral morphology with a magnetic field geometry derived from radio synchrotron observations of face-on barred spirals fits the data much better. There is clear evidence for a vertical field extending into the halo from one location in the disk coincident with a polarization null point seen in near-infrared polarimetry, probably due to a blowout caused by star formation. Although our observations were capable of detecting a vertical magnetic field geometry elsewhere in the halo, no clear signature was found. A reduced polarization due to a mix of planar and vertical fields in the dusty regions of the halo best explains our observations, but unusually significant turbulence cannot be ruled out.

Item Type: Article
Subjects: Euro Archives > Physics and Astronomy
Depositing User: Managing Editor
Date Deposited: 17 Nov 2023 03:26
Last Modified: 17 Nov 2023 03:26
URI: http://publish7promo.com/id/eprint/3952

Actions (login required)

View Item
View Item