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Twisted magnetic field in star formation processes of L1521 F revealed by submillimeter dual-band polarimetry using the James Clerk Maxwell Telescope

Publications of the Astronomical Society of Japan(2023)

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Abstract
Understanding the initial conditions of star formation requires both observational studies and theoretical works taking into account the magnetic field, which plays an important role in star formation processes. Herein, we study the young nearby dense cloud core L1521 F [n(H-2) similar to 10(4-6) cm(-3)] in the Taurus Molecular Cloud. This dense core hosts a 0.2 M-circle dot protostar, categorized as a very low luminosity object with complex velocity structures, particularly in the vicinity of the protostar. To trace the magnetic field within the dense core, we conducted high-sensitivity submillimeter polarimetry of the dust continuum at lambda = 850 mu m and 450 mu m using the POL-2 polarimeter situated in front of the SCUBA-2 submillimeter bolometer camera on the James Clerk Maxwell Telescope. This was compared with millimeter polarimetry taken at lambda = 3.3 mm with ALMA. The magnetic field was detected at lambda = 850 mu m in the peripheral region, which is threaded in a north-south direction, while the central region traced at lambda = 450 mu m shows a magnetic field with an east-west direction, i.e., orthogonal to that of the peripheral region. Magnetic field strengths are estimated to be similar to 70 mu G and 200 mu G in the peripheral and central regions, respectively, using the Davis-Chandrasekhar-Fermi method. The resulting mass-to-flux ratio of three times larger than that of magnetically critical state for both regions indicates that L 1521 F is magnetically supercritical, i.e., gravitational forces dominate over magnetic turbulence forces. Combining observational data with magnetohydrodynamic simulations, detailed parameters of the morphological properties of this puzzling object are derived for the first time.
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Key words
stars: formation,stars: low-mass,stars: magnetic fields
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