Bibcode
DOI
Pereyra, A.; Magalhães, A. M.
Bibliographical reference
The Astrophysical Journal, Volume 662, Issue 2, pp. 1014-1023.
Advertised on:
6
2007
Journal
Citations
31
Refereed citations
23
Description
We explore correlations between visual extinction and polarization along
the western side of the Infrared Astronomical Satellite (IRAS) Vela
Shell using a published polarimetric catalog of several hundred objects.
Our extinction maps along this ionization front (I-front) find evidence
of clumpy structure with typical masses between 1.5 and 6
Msolar and a mean length scale L~0.47 pc. The polarimetric
data allowed us to investigate the distribution of the local magnetic
field in small (~parsec) scales across the I-front. Using the dispersion
of polarization position angles, we find variations in the
kinetic-to-magnetic energy density ratio of at least 1 order of
magnitude along the I-front, with the magnetic pressure generally
dominating over the turbulent motions. These findings suggest that the
magnetic component makes a significant contribution to the dynamical
balance of this region. Along the I-front, the mean magnetic field
projected on the sky is 0.018+/-0.013 mG. The polarization efficiency
seems to change along the I-front. We attribute high polarization
efficiencies in regions of relatively low extinction to an optimum
degree of grain alignment. Analysis of the mass-to-magnetic flux ratio
shows that this quantity is consistent with the subcritical regime
(λ<1), showing that magnetic support is indeed important in
the region. Our data extend the overall λ-N(H2)
relation toward lower density values and show that such a trend
continues smoothly toward low N(H 2) values. This provides
general support for the evolution of initially subcritical clouds to an
eventual supercritical stage.