Low-velocity large-scale shocks in the infrared dark cloud G035.39-00.33: Bubble-driven cloud-cloud collisions

Cosentino, G, Jiménez-Serra, I, Liu, R, Law, C-Y, Tan, JC, Henshaw, JD orcid iconORCID: 0000-0001-9656-7682, Barnes, AT, Fontani, F, Caselli, P and Viti, S (2025) Low-velocity large-scale shocks in the infrared dark cloud G035.39-00.33: Bubble-driven cloud-cloud collisions. Astronomy & Astrophysics, 701. pp. 1-9. ISSN 0004-6361

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Abstract

Low-velocity, large-scale shocks impacting on the interstellar medium have been suggested as efficient mechanisms that shape molecular clouds and trigger star formation within them. These shocks, both driven by galactic bubbles and/or cloud-cloud collisions, leave specific signatures in the morphology and kinematics of the gas. Observational studies of such signatures are crucial to investigate if and how shocks affect the clouds formation process and trigger their future star formation. We have analysed the shocked and dense gas tracers SiO(2-1) and H^13CO^+(1-0) emission towards the Infrared Dark Cloud G035.39-00.33, using new, larger-scale maps obtained with the 30 m telescope at the Instituto de Radioastronomía Millimétrica. We find that the dense gas is organised into a northern filament and a southern one that have different velocities and tilted orientations with respect to each other. The two filaments, seen in H^13CO^+, are spatially separated yet connected by a faint bridge-like feature also seen in a position-velocity diagram extracted across the cloud. This bridge feature, typical of cloud-cloud collisions, also coincides with a very spectrally narrow SiO-traced gas emission. We suggest that the northern filament is interacting with the nearby supernova remnant G035.6-0.4. Towards the southern filament, we also report the presence of a parsec-scale, spectrally narrow SiO emission likely driven by the interaction between this filament and a nearby expanding shell. The shell is visible in the 1.3 GHz and 610 MHz continuum images and our preliminary analysis suggests it may be the relic of a supernova remnant. We conclude that the two filaments represent the densest part of two colliding clouds, pushed towards each other by nearby supernova remnants. We speculate that this cloud-cloud collision driven by stellar feedback may have assembled the infrared dark cloud. We also evaluate the possibility that star formation may have been triggered within G035.39-00.33 by the cloud-cloud collision.

Item Type: Article
Uncontrolled Keywords: 5101 Astronomical Sciences; 51 Physical Sciences; 0201 Astronomical and Space Sciences; Astronomy & Astrophysics; 5101 Astronomical sciences; 5107 Particle and high energy physics; 5109 Space sciences
Subjects: Q Science > QB Astronomy
Q Science > QC Physics
Divisions: Astrophysics Research Institute
Publisher: EDP Sciences
Date of acceptance: 7 August 2025
Date of first compliant Open Access: 30 September 2025
Date Deposited: 30 Sep 2025 15:28
Last Modified: 30 Sep 2025 15:45
DOI or ID number: 10.1051/0004-6361/202556057
URI: https://researchonline.ljmu.ac.uk/id/eprint/27236
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