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Issue A&A
Volume 487, Number 1, August III 2008
Page(s) 247 - 252
Section Interstellar and circumstellar matter
DOI http://dx.doi.org/10.1051/0004-6361:200809577
Published online 22 May 2008



A&A 487, 247-252 (2008)
DOI: 10.1051/0004-6361:200809577

CN Zeeman measurements in star formation regions

E. Falgarone1, T. H. Troland2, R. M. Crutcher3, and G. Paubert4

1  LERMA/LRA, CNRS UMR 8112, École Normale Supérieure and Observatoire de Paris, 24 rue Lhomond, 75231 Paris Cedex 05, France
    e-mail: edith@lra.ens.fr
2  University of Kentucky, Department of Physics and Astronomy, Lexington, KY 40506, USA
    e-mail: troland@pa.uky.edu
3  University of Illinois, Department of Astronomy, Urbana, IL 61801, USA
    e-mail: crutcher@uiuc.edu
4  IRAM, 7 avenida Divina Pastora, Granada, Spain
    e-mail: paubert@iram.es

Received 14 February 2008 / Accepted 17 May 2008

Abstract
Aims. Magnetic fields play a primordial role in the star formation process. The Zeeman effect on the CN radical lines is one of the few methods of measuring magnetic fields in the dense gas of star formation regions.
Methods. We report new observations of the Zeeman effect on seven hyperfine CN N = 1-0 lines in the direction of 14 regions of star formation.
Results. We have improved the sensitivity of previous detections, and obtained five new detections. Good upper limits are also achieved. The probability distribution of the line-of-sight field intensity, including non-detections, provides a median value of the total field $B_{\rm tot}$ = 0.56 mG while the average density of the medium sampled is $n({\rm H_2})$ = 4.5 $\times$ 105cm-3. We show that the CN line probably samples regions similar to those traced by CS and that the magnetic field observed mostly pervades the dense cores. The dense cores are found to be critical to slightly supercritical with a mean mass-to-flux ratio $M/\Phi \sim 1$ to 4 with respect to critical. Their turbulent and magnetic energies are in approximate equipartition.


Key words: magnetic fields -- stars: formation -- ISM: molecules -- turbulence -- polarization -- ISM: kinematics and dynamics



© ESO 2008

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