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Evolution of the Hub-filament Structures in IC 5146 in the Context of the Energy Balance of Gravity, Turbulence, and Magnetic Field

Eun Jung Chung, Chang Won Lee, Woojin Kwon, Hyunju Yoo, Archana Soam, Jungyeon Cho

2022The Astronomical Journal13 citationsDOIOpen Access PDF

Abstract

Abstract We present the results of 850 μ m polarization and C 18 O (3 − 2) line observations toward the western hub-filament structure (W-HFS) of the dark Streamer in IC 5146 using the James Clerk Maxwell Telescope SCUBA-2/POL-2 and HARP instruments. We aim to investigate how the relative importance of the magnetic field, gravity, and turbulence affects core formation in HFS by comparing the energy budget of this region. We identified four 850 μ m cores and estimated the magnetic field strengths ( B pos ) of the cores and the hub and filament using the Davis–Chandrasekhar–Fermi method. The estimated B pos is ∼80 to 1200 μ G. From Wang et al., B pos of E-47, a core in the eastern hub (E-hub), and E-hub were reestimated to be 500 and 320 μ G, respectively, with the same method. We measured the gravitational ( E G ), kinematic ( E K ), and magnetic energies ( E B ) in the filament and hubs and compared the relative importance among them. We found that an E B -dominant filament has aligned fragmentation type, while E G -dominant hubs show no and clustered fragmentation types. In the E G dominant hubs, it seems that the portion of E K determines whether the hub becomes to have clustered (the portion of E K ∼ 20%) or no fragmentation type (∼10%). We propose an evolutionary scenario for the E- and W-HFSs, where the HFS forms first by the collision of turbulent flows, and then the hubs and filaments can go into various types of fragmentation depending on their energy balance of gravity, turbulence, and magnetic field.

Topics & Concepts

PhysicsProtein filamentMagnetic fieldTurbulenceAstrophysicsFragmentation (computing)GravitationClassical mechanicsMechanicsQuantum mechanicsGeneticsBiologyOperating systemComputer scienceAstrophysics and Star Formation StudiesStellar, planetary, and galactic studiesSolar and Space Plasma Dynamics
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