Grain alignment in starless cores

T. J. Jones; M. Bagley; M. Krejny; B. G. Andersson; P. Bastien

doi:10.1088/0004-6256/149/1/31

Grain alignment in starless cores

T. J. Jones, M. Bagley, M. Krejny, B. G. Andersson, P. Bastien

Minnesota Institute for Astrophysics

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Abstract

We present near-IR polarimetry data of background stars shining through a selection of starless cores taken in the K band, probing visual extinctions up to . We find that continues to decline with increasing A_V with a power law slope of roughly -0.5. Examination of published submillimeter (submm) polarimetry of starless cores suggests that by the slope for P versus τ becomes ∼-1, indicating no grain alignment at greater optical depths. Combining these two data sets, we find good evidence that, in the absence of a central illuminating source, the dust grains in dense molecular cloud cores with no internal radiation source cease to become aligned with the local magnetic field at optical depths greater than . A simple model relating the alignment efficiency to the optical depth into the cloud reproduces the observations well.

Original language	English (US)
Article number	31
Journal	Astronomical Journal
Volume	149
Issue number	1
DOIs	https://doi.org/10.1088/0004-6256/149/1/31
State	Published - Jan 1 2015

Bibliographical note

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© 2015. The American Astronomical Society. All rights reserved..

Keywords

ISM: clouds
ISM: magnetic fields
dust extinction

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title = "Grain alignment in starless cores",

abstract = "We present near-IR polarimetry data of background stars shining through a selection of starless cores taken in the K band, probing visual extinctions up to . We find that continues to decline with increasing AV with a power law slope of roughly -0.5. Examination of published submillimeter (submm) polarimetry of starless cores suggests that by the slope for P versus τ becomes ∼-1, indicating no grain alignment at greater optical depths. Combining these two data sets, we find good evidence that, in the absence of a central illuminating source, the dust grains in dense molecular cloud cores with no internal radiation source cease to become aligned with the local magnetic field at optical depths greater than . A simple model relating the alignment efficiency to the optical depth into the cloud reproduces the observations well.",

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AU - Bagley, M.

AU - Krejny, M.

AU - Andersson, B. G.

AU - Bastien, P.

PY - 2015/1/1

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Grain alignment in starless cores

Abstract

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Keywords

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