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The JCMT BISTRO-2 Survey: The Magnetic Field in the Center of the Rosette Molecular Cloud.

Authors :
Könyves, Vera
Ward-Thompson, Derek
Pattle, Kate
Francesco, James Di
Arzoumanian, Doris
Chen, Zhiwei
Diep, Pham Ngoc
Eswaraiah, Chakali
Fanciullo, Lapo
Furuya, Ray S.
Hoang, Thiem
Hull, Charles L. H.
Hwang, Jihye
Johnstone, Doug
Kang, Ji-hyun
Karoly, Janik
Kirchschlager, Florian
Kirk, Jason M.
Koch, Patrick M.
Kwon, Jungmi
Source :
Astrophysical Journal. 5/20/2021, Vol. 913 Issue 1, p1-11. 11p.
Publication Year :
2021

Abstract

We present the first 850 μm polarization observations in the most active star-forming site of the Rosette Molecular Cloud (d ∼ 1.6 kpc) in the wall of the Rosette Nebula, imaged with the SCUBA-2/POL-2 instruments of the James Clerk Maxwell telescope, as part of the B-Fields In Star-forming Region Observations 2 (BISTRO-2) survey. From the POL-2 data we find that the polarization fraction decreases with the 850 μm continuum intensity with α = 0.49 ± 0.08 in the p ∝ I−α relation, which suggests that some fraction of the dust grains remain aligned at high densities. The north of our 850 μm image reveals a "gemstone ring" morphology, which is a ∼1 pc diameter ring-like structure with extended emission in the "head" to the southwest. We hypothesize that it might have been blown by feedback in its interior, while the B-field is parallel to its circumference in most places. In the south of our SCUBA-2 field the clumps are apparently connected with filaments that follow infrared dark clouds. Here, the POL-2 magnetic field orientations appear bimodal with respect to the large-scale Planck field. The mass of our effective mapped area is ∼174 M⊙, which we calculate from 850 μm flux densities. We compare our results with masses from large-scale emission-subtracted Herschel 250 μm data and find agreement within 30%. We estimate the plane-of-sky B-field strength in one typical subregion using the Davis–Chandrasekhar–Fermi technique and find 80 ± 30 μG toward a clump and its outskirts. The estimated mass-to-flux ratio of λ = 2.3 ± 1.0 suggests that the B-field is not sufficiently strong to prevent gravitational collapse in this subregion. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
0004637X
Volume :
913
Issue :
1
Database :
Academic Search Index
Journal :
Astrophysical Journal
Publication Type :
Academic Journal
Accession number :
150773965
Full Text :
https://doi.org/10.3847/1538-4357/abf3ca