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Polarization Properties and Magnetic Field Structures in the High-Mass Star-Forming Region W51 Observed with ALMA

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arxiv 1801.08264 v1 pith:A5NS6K76 submitted 2018-01-25 astro-ph.GA

Polarization Properties and Magnetic Field Structures in the High-Mass Star-Forming Region W51 Observed with ALMA

classification astro-ph.GA
keywords b-fieldpolarizationgravitylocalmagneticmorphologiesomegaregions
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present the first ALMA dust polarization observations towards the high-mass star-forming regions W51 e2, e8, and W51 North in Band 6 (230 GHz) with a resolution around 0.26" ($\sim5$mpc). Polarized emission in all three sources is clearly detected and resolved. Measured relative polarization levels are between 0.1\% and 10\%. While the absolute polarization shows complicated structures, the relative polarization displays the typical anti-correlation with Stokes $I$, though with a large scatter. Inferred magnetic (B) field morphologies are organized and connected. Detailed substructures are resolved, revealing new features such as cometary-shaped B-field morphologies in satellite cores, symmetrically converging B-field zones, and possibly streamlined morphologies. The local B-field dispersion shows some anti-correlation with the relative polarization. Moreover, lowest polarization percentages together with largest dispersions coincide with B-field convergence zones. We put forward $\sin\omega$, where $\omega$ is the measurable angle between a local B-field orientation and local gravity, as a measure of how effectively the B-field can oppose gravity. Maps of $\sin\omega$ for all three sources show organized structures that suggest a locally varying role of the B-field, with some regions where gravity can largely act unaffectedly, possibly in a network of narrow magnetic channels, and other regions where the B-field can work maximally against gravity.

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    Polarization observations reveal scale-dependent differences in magnetic field morphology between molecular clouds and clumps, a velocity-dispersion correlation, and unreliable field-strength estimates that contradict...