Magnetic Fields in Massive Star-forming Regions (MagMaR): Unveiling an Hourglass Magnetic Field in G333.46–0.16 Using ALMA

Author:

Saha PiyaliORCID,Sanhueza PatricioORCID,Padovani MarcoORCID,Girart Josep M.ORCID,Cortés Paulo C.ORCID,Morii KahoORCID,Liu JunhaoORCID,Sánchez-Monge Á.ORCID,Galli DanieleORCID,Basu ShantanuORCID,Koch Patrick M.ORCID,Beltrán Maria T.ORCID,Li ShanghuoORCID,Beuther HenrikORCID,Stephens Ian W.ORCID,Nakamura FumitakaORCID,Zhang QizhouORCID,Jiao WenyuORCID,Fernández-López M.ORCID,Hwang JihyeORCID,Chung Eun JungORCID,Pattle KateORCID,Zapata Luis A.ORCID,Xu FengweiORCID,Olguin Fernando A.ORCID,Kang Ji-hyunORCID,Karoly JanikORCID,Law Chi-YanORCID,Wang Jia-WeiORCID,Csengeri TimeaORCID,Lu XingORCID,Cheng YuORCID,Kim JongsooORCID,Choudhury SpandanORCID,Chen Huei-Ru VivienORCID,Hull Charles L. H.ORCID

Abstract

Abstract The contribution of the magnetic field to the formation of high-mass stars is poorly understood. We report the high angular resolution (∼0.″3, 870 au) map of the magnetic field projected on the plane of the sky (B POS) toward the high-mass star-forming region G333.46−0.16 (G333), obtained with the Atacama Large Millimeter/submillimeter Array at 1.2 mm as part of the Magnetic fields in Massive star-forming Regions survey. The B POS morphology found in this region is consistent with a canonical “hourglass” with an embedded flattened envelope in a perpendicular direction, which suggests a dynamically important field. This region is fragmented into two protostars that appear to be gravitationally bound in a stable binary system with a separation of ∼1740 au. Interestingly, by analyzing H13CO+ (J = 3–2) line emission, we find no velocity gradient over the extent of the continuum, which is consistent with a strong field. We model the B POS, obtaining a marginally supercritical mass-to-flux ratio of 1.43, suggesting an initially strongly magnetized environment. Based on the Davis–Chandrasekhar–Fermi method, the magnetic field strength toward G333 is estimated to be 5.7 mG. The absence of strong rotation and outflows toward the central region of G333 suggests strong magnetic braking, consistent with a highly magnetized environment. Our study shows that despite being a strong regulator, the magnetic energy fails to prevent the process of fragmentation, as revealed by the formation of the two protostars in the central region.

Funder

MEXT ∣ Japan Society for the Promotion of Science

Publisher

American Astronomical Society

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