BISTRO Survey: Gravity-Dominated and Magnetically Regulated Star Formation in M17 SW

Mengke Zhao; Keping Qiu; Ji-hyun Kang; Xindi Tang; Anthony Whitworth; Derek Ward-Thompson; Takashi Onaka; Chang Won Lee; Tyler L. Bourke; Jihye Hwang; David Eden; Thiem Hoang; Motohide Tamura; Jungmi Kwon; Felix Priestley; Kee-Tae Kim; Doris Arzoumanian; James Di Francesco; Chakali Eswaraiah; Doug Johnstone; Nguyen Bich Ngoc; Zhiwei Chen; Sarah Sadavoy; Archana Soam; Ray S. Furuya; Shih-Ping Lai; Woojin Kwon; Pierre Bastien; Kate Pattle; David Berry

arXiv:2605.17708·astro-ph.GA·May 19, 2026

BISTRO Survey: Gravity-Dominated and Magnetically Regulated Star Formation in M17 SW

Mengke Zhao, Keping Qiu, Ji-hyun Kang, Xindi Tang, Anthony Whitworth, Derek Ward-Thompson, Takashi Onaka, Chang Won Lee, Tyler L. Bourke, Jihye Hwang, David Eden, Thiem Hoang, Motohide Tamura, Jungmi Kwon, Felix Priestley, Kee-Tae Kim, Doris Arzoumanian, James Di Francesco

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TL;DR

This study maps magnetic fields in M17 SW, revealing gravity-dominated star formation with magnetic regulation, showing an arc-like magnetic structure and energy hierarchy favoring gravity over magnetic and turbulent energies.

Contribution

First high-resolution magnetic field maps of M17 SW combining polarization and ammonia data, revealing gravity's dominance and magnetic field influence on star formation.

Findings

01

Magnetic field strength ranges from 0.1 to 2.4 mG.

02

Gravity energy exceeds magnetic and turbulent energies.

03

Magnetic fields align with gravity, aiding collapse and gas flow.

Abstract

We present high-resolution magnetic field maps of the M17 SW molecular cloud using JCMT 850 $μ$ m dust polarization at a scale of 14 $^{''}$ . The magnetic field exhibits a distinct arc-like structure that encircles three dense clumps (C1, C2, and C3). By combining polarization data with ammonia line observations, the plane-of-sky magnetic field strength, measured using the Skalidis-Tassis method to minimize angle dispersion errors, ranges from 0.1 to 2.4 mG (mean: 0.54 mG). Energy budget analysis reveals a hierarchy dominated by gravity ( $e_{G} \approx 1 0^{- 7.8}$ erg cm $^{- 3}$ ), which exceeds both magnetic ( $e_{B} \approx 1 0^{- 8.3}$ erg cm $^{- 3}$ ) and turbulent ( $e_{k} \approx 1 0^{- 8.7}$ erg cm $^{- 3}$ ) energies. Since all three energy densities lie within one order of magnitude, gravitational dominance acts primarily as the global driver, while the system remains in a state of…

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