Astronomy and Astrophysics – Astrophysics
Scientific paper
1997-06-16
Astrophys.J.490:273,1997
Astronomy and Astrophysics
Astrophysics
24 pages, 2 figures, accepted to ApJ
Scientific paper
10.1086/304874
A quantitative analysis of grain alignment in the filamentary dark cloud L1755 in Ophiuchus is presented. We show, that the observed decrease of the polarization to extinction ratio for the inner parts of this quiescent dark cloud can be explained as a result of the decrease of the efficiency of grain alignment.We make quantitative estimates of grain alignment efficiency for six mechanisms, involving grains with either thermal or suprathermal rotation, interacting with either magnetic field or gaseous flow. We also make semiquantitative estimates of grain alignment by radiative torques.We show that in conditions typical of dark cloud interiors, all known major mechanisms of grain alignment fail. All the studied mechanisms predict polarization at least an order of magnitude below the currently detectable levels of order of 1%. On the contrary, in the dark cloud environments where A_v<1 the grain alignment can be much more efficient. There the alignment of suprathermally rotating grains with superparamagentic inclusions, and possibly also radiative torques account for observed polarization. These results apply to L1755, which we model in detail and probably also to B216 and other similar dark clouds. Our study suggests an explanation for the difference in results obtained through polarimetry of background starlight and polarized thermal emission from the dust itself. We conjecture that the emission polarimetry selectively reveals aligned grains in the environment far from thermodynamic equilibrium as opposed to starlight polarization studie that probe the alignment of grains all the way along the line of sight, including the interiors of dark quiescent clouds, where no alignment is possible.
Goodman Alyssa A.
Lazarian Alex
Myers Philip C.
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