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A&A 458, 441-452 (2006)
DOI: 10.1051/0004-6361:20065225
Analysis of spiral arms using anisotropic wavelets: gas, dust and magnetic fields in M 51
I. Patrikeev1, A. Fletcher2, 3, R. Stepanov1, R. Beck2, E. M. Berkhuijsen2, P. Frick1 and C. Horellou41 Institute of Continuous Media Mechanics, Korolyov str. 1, 614061 Perm, Russia
2 Max-Planck-Institut für Radioastronomie, Auf dem Hügel 69, 53121 Bonn, Germany
3 School of Mathematics and Statistics, University of Newcastle, Newcastle upon Tyne NE1 7RU, UK
e-mail: andrew.fletcher@ncl.ac.uk
4 Onsala Space Observatory, Chalmers University of Technology, 439 92 Onsala, Sweden
(Received 17 March 2006 / Accepted 1 August 2006)
Abstract
Context.The origin of the spiral pattern of magnetic fields in disc galaxies is
an open question.
Aims.Comparison of the regular magnetic field
orientation with the gaseous spiral arm pitch angles can tell us whether spiral
shock compression is responsible for the magnetic spirals. We also wish to see
whether the ridges of different components of the ISM show the large-scale,
systematic shifts expected from density wave theory.
Methods.We have developed a technique of isolating elongated structures in
galactic images, such as spiral arms, using anisotropic wavelets and apply this to
maps of the CO, infrared and radio continuum emission of the grand-design spiral
galaxy M 51.
Results.Systematic shifts between the ridges of CO, infrared and radio continuum
emission that are several
long are identified, as well as large variations
in pitch angle along spiral arms, of a few tens of degrees. We find two types of
arms of polarized radio emission: one has a ridge close to the ridge of CO, with
similar pitch angles for the CO and polarization spirals and the regular
magnetic field; the other does not always coincide with the CO arm and its pitch
angle differs from the orientation of its regular magnetic field.
Conclusions.The offsets between ridges of regular magnetic field, dense gas and warm dust
are compatible with the sequence expected from spiral density wave triggered
star formation, with a delay of a few tens of millions of years between gas
entering the shock and the formation of giant molecular clouds and a similar
interval between the formation of the clouds and the emergence of young star
clusters. At the position of the CO arms the orientation of the regular magnetic
field is the same as the pitch angle of the spiral arm, but away from the
gaseous arms the orientation of the regular field varies significantly. Spiral
shock compression can explain the generation of one type of arm of strong
polarized radio emission but a different mechanism is probably responsible for a
second type of polarization arm.
Key words: galaxies: spiral -- galaxies: magnetic fields -- galaxies: ISM -- galaxies: individual: M 51 -- methods: data analysis
© ESO 2006
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