Zhang, S, Cyganowski, CJ, Henshaw, JD, Brogan, CL, Hunter, TR, Friesen, RK, Bonnell, IA and Viti, S (2024) Filamentary mass accretion towards the high-mass protobinary system G11.92-0.61 MM2. Monthly Notices of the Royal Astronomical Society, 533 (1). pp. 1075-1094. ISSN 0035-8711

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Abstract

We present deep, sub-arcsecond (2000 au) resolution ALMA 0.82-mm observations of the former high-mass prestellar core candidate G11.92-0.61 MM2, recently shown to be an 500 au-separation protobinary. Our observations show that G11.92-0.61 MM2, located in the G11.92-0.61 protocluster, lies on a filamentary structure traced by 0.82-mm continuum and NH(4-3) emission. The NH(4-3) spectra are multipeaked, indicative of multiple velocity components along the line of sight. To analyse the gas kinematics, we performed pixel-by-pixel Gaussian decomposition of the NH spectra using scousepy and hierarchical clustering of the extracted velocity components using acorns. Seventy velocity- and position-coherent clusters (called 'trees') are identified in the NH-emitting gas, with the eight largest trees accounting for 60 per cent of the fitted velocity components. The primary tree, with 20 per cent of the fitted velocity components, displays a roughly north-south velocity gradient along the filamentary structure traced by the 0.82-mm continuum. Analysing an 0.17 pc-long substructure, we interpret its velocity gradient of 10.5 km s pc as tracing filamentary accretion towards MM2 and estimate a mass inflow rate of to 1.2 M yr. Based on the recent detection of a bipolar molecular outflow associated with MM2, accretion on to the protobinary is ongoing, likely fed by the larger scale filamentary accretion flows. If 50 per cent of the filamentary inflow reaches the protostars, each member of the protobinary would attain a mass of 8 M within yr, comparable to the combined time-scale of the 70-μm- and mid-infrared-weak phases derived for ATLASGAL-TOP100 massive clumps using chemical clocks.

Item Type:	Article
Uncontrolled Keywords:	0201 Astronomical and Space Sciences; Astronomy & Astrophysics
Subjects:	Q Science > QB Astronomy Q Science > QC Physics
Divisions:	Astrophysics Research Institute
Publisher:	Oxford University Press (OUP)
SWORD Depositor:	A Symplectic
Date Deposited:	25 Sep 2024 11:43
Last Modified:	25 Sep 2024 11:45
DOI or ID number:	10.1093/mnras/stae1844
URI:	https://researchonline.ljmu.ac.uk/id/eprint/24257

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