MagMaR III—Resisting the Pressure, Is the Magnetic Field Overwhelmed in NGC6334I?

Autor: Paulo C. Cortés, Josep M. Girart, Patricio Sanhueza, Junhao Liu, Sergio Martín, Ian W. Stephens, Henrik Beuther, Patrick M. Koch, M. Fernández-López, Álvaro Sánchez-Monge, Jia-Wei Wang, Kaho Morii, Shanghuo Li, Piyali Saha, Qizhou Zhang, David Rebolledo, Luis A. Zapata, Ji-hyun Kang, Wenyu Jiao, Jongsoo Kim, Yu Cheng, Jihye Hwang, Eun Jung Chung, Spandan Choudhury, A-Ran Lyo, Fernando Olguin
Jazyk: angličtina
Rok vydání: 2024
Předmět:
Zdroj: The Astrophysical Journal, Vol 972, Iss 1, p 115 (2024)
Druh dokumentu: article
ISSN: 1538-4357
DOI: 10.3847/1538-4357/ad59a7
Popis: We report on Atacama Large Millimeter/submillimeter Array observations of polarized dust emission at 1.2 mm from NGC6334I, a source known for its significant flux outbursts. Between five months, our data show no substantial change in total intensity and a modest 8% variation in linear polarization, suggesting a phase of stability or the conclusion of the outburst. The magnetic field, inferred from this polarized emission, displays a predominantly radial pattern from northwest to southeast with intricate disturbances across major cores, hinting at spiral structures. Energy analysis of CS ( J = 5 → 4) emission yields an outflow energy of approximately 3.5 × 10 ^45 erg, aligning with previous interferometric studies. Utilizing the Davis–Chandrasekhar–Fermi method, we determined magnetic field strengths ranging from 1 to 11 mG, averaging at 1.9 mG. This average increases to 4 ± 1 mG when incorporating Zeeman measurements. Comparative analyses using gravitational, thermal, and kinetic energy maps reveal that magnetic energy is significantly weaker, possibly explaining the observed field morphology. We also find that the energy in the outflows and the expanding cometary HII region is also larger than the magnetic energy, suggesting that protostellar feedback may be the dominant driver behind the injection of turbulence in NGC6334I at the scales sampled by our data. The gas in NGC6334I predominantly exhibits supersonic and trans-Alfvenic conditions, transitioning towards a super-Alfvenic regime, underscoring a diminished influence of the magnetic field with increasing gas density. These observations are in agreement with prior polarization studies at 220 GHz, enriching our understanding of the dynamic processes in high-mass star-forming regions.
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