Rotating elephant trunks

doi:10.1051/0004-6361:20054494

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Title:		Rotating elephant trunks
Authors:		Gahm, G. F.; Carlqvist, P.; Johansson, L. E. B.; Nikolic, S.
Affiliation:		AA(Stockholm Observatory, AlbaNova University Centre, 106 91 Stockholm, Sweden ), AB(Alfvén Laboratory, Royal Institute of Technology, 100 44 Stockholm, Sweden), AC(Onsala Space Observatory, 439 92 Onsala, Sweden), AD(Departamento de Astronomía, Universidad de Chile, Casilla 36D, Santiago, Chile; Astronomical Observatory, Volgina 7, 11060 Belgrade, Serbia and Montenegro)
Publication:		Astronomy and Astrophysics, Volume 454, Issue 1, July IV 2006, pp.201-212 (A&A Homepage)
Publication Date:		07/2006
Origin:		EDP Sciences
Astronomy Keywords:		ISM: H II regions, ISM: clouds, ISM: kinematics and dynamics, ISM: magnetic fields
DOI:		10.1051/0004-6361:20054494
Bibliographic Code:		2006A&A...454..201G

Abstract

Aims.We investigate the structure and velocity of cold molecular pillars, "elephant trunks", in expanding H II regions.
Methods: .The trunks are seen in silhouette against the bright background in our Halpha images. All trunks are filamentary, and show signs of being twisted. Four such trunks in NGC 7822, IC 1805, the Rosette Nebula, and DWB 44 were selected, and then mapped mainly in ¹²CO and ¹³CO. We determine the mass and density of the trunks. Most of the mass is concentrated in a head facing the central cluster, and in sub-filaments forming the body of the trunk that is connected to V-shaped filaments to the outer expanding shell.
Results: .We discovered that all four trunks rotate as rigid bodies (to a first approximation) about their major axes, and that at least two trunks are stretching along their major axes, meaning that the massive heads are lagging behind in the general expansion of the H II regions. The rotational periods are of the order of a few million years - similar to the age of the clusters. Rotation, then, is responsible for the twisted appearance of many elephant trunks, since they are rooted in the outer shells. The trunks carry surprisingly large amounts of angular momentum, 3× 10⁴⁸{-}2× 10⁵⁰ kg m² s^-1, with corresponding rotational energies of up to 10³⁷ J. However, we estimate the total magnetic energies to be even larger. The trunks continuously reshape, and the formation of twined, and in many cases helical, sub-filaments can be understood as a consequence of electromagnetic and inertia forces inside the trunks. A theory based on the concept of magnetically twisted trunks is developed further, where the initial angular momentum is a consequence of the twisting of parent filaments containing mass condensations. Our results also suggest a new process of removing angular momentum from parent molecular clouds.

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