Cluster-formation in the Rosette molecular cloud at the junctions of   filaments

N. Schneider (1); T. Csengeri (2); M. Hennemann (1); F. Motte (1); P.; Didelon (1); C. Federrath (3,4); S. Bontemps (5); J. Di Francesco (6); D.; Arzoumanian (1); V. Minier (1); Ph. Andr\'e (1); T. Hill (1); A. Zavagno (7),; Q. Nguyen-Luong (1); M. Attard (1); J.-Ph. Bernard (8); D. Elia (9); C.; Fallscheer (6); M. Griffin (10); J. Kirk (10); R. Klessen (4); V. K\"onyves; (1); P. Martin (11); A. Men'shchikov (1); P. Palmeirim (1); N. Peretto (1),; M. Pestalozzi (9); D. Russeil (7); S. Sadavoy (12); T. Sousbie (13); L. Testi; (14); P. Tremblin (1); D. Ward-Thompson (10); G. White (15,16) ((1) IRFU/SAp; CEA/DSM; Laboratoire AIM CNRS - Universit\'e Paris Diderot; France; (2); Max-Planck Institut f\"ur Radioastronomie; Bonn; Germany; (3) Monash Centre; for Astrophysics (MoCA); School of Mathematical Sciences; Monash University,; Australia; (4) Zentrum f\"ur Astronomie der Universit\"at Heidelberg; Inst.; f\"ur Theor. Astrophysik; Heidelberg; Germany; (5) OASU/LAB-UMR5804; CNRS,; Universit\'e Bordeaux 1; Floirac; France; (6) National Research Council of; Canada; Herzberg Institute of Astrophysics; Victoria; Canada; (7) Laboratoire; d'Astrophysique de Marseille; CNRS/INSU - Universit\'e de Provence,; Marseille; France (8) Universit\'e de Toulouse; UPS; CESR; Toulouse; France,; (9) IAPS-INAF; Roma; Italy; (10) Cardiff University School of Physics and; Astronomy; Cardiff; UK; (11) CITA & Dep. of Astronomy; Astrophysics,; University of Toronto; Canada; (12) Department of Physics; Astronomy,; University of Victoria; Canada (13) IAP; UPMC; CNRS; Paris; France; (14) ESO,; Garching; Germany; (15) Department of Physics & Astronomy; The Open; University; UK; (16) RAL; Didcot; UK)

arXiv:1203.6472·astro-ph.GA·June 4, 2015

Cluster-formation in the Rosette molecular cloud at the junctions of filaments

N. Schneider (1), T. Csengeri (2), M. Hennemann (1), F. Motte (1), P., Didelon (1), C. Federrath (3,4), S. Bontemps (5), J. Di Francesco (6), D., Arzoumanian (1), V. Minier (1), Ph. Andr\'e (1), T. Hill (1), A. Zavagno (7),, Q. Nguyen-Luong (1), M. Attard (1), J.-Ph. Bernard (8)

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TL;DR

This study investigates the structure and star formation processes in the Rosette molecular cloud, finding that star formation predominantly occurs in filaments and is not globally triggered by UV radiation, challenging previous assumptions.

Contribution

The paper provides a detailed analysis of the filamentary structure and density PDFs of the Rosette cloud, showing star formation occurs at filament junctions and is not globally UV-triggered.

Findings

01

Infrared clusters are located at filament junctions.

02

UV-exposed regions show shock compression signatures.

03

Density structure is similar across low- and high-mass star-forming regions.

Abstract

For many years feedback processes generated by OB-stars in molecular clouds, including expanding ionization fronts, stellar winds, or UV-radiation, have been proposed to trigger subsequent star formation. However, hydrodynamic models including radiation and gravity show that UV-illumination has little or no impact on the global dynamical evolution of the cloud. The Rosette molecular cloud, irradiated by the NGC2244 cluster, is a template region for triggered star-formation, and we investigated its spatial and density structure by applying a curvelet analysis, a filament-tracing algorithm (DisPerSE), and probability density functions (PDFs) on Herschel column density maps, obtained within the HOBYS key program. The analysis reveals not only the filamentary structure of the cloud but also that all known infrared clusters except one lie at junctions of filaments, as predicted by turbulence…

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