Magnetic Field Structure Around Low-mass Class 0 Protostars: B335, L1527, and IC348-SMM2

We report new 350 Delta *mm polarization observations of the thermal dust emission from the cores surrounding the low-mass, Class 0 young stellar objects L1527, IC348-SMM2, and B335. We have inferred magnetic field directions from these observations and have used them together with results in the li...

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Published in	The Astrophysical journal Vol. 732; no. 2; pp. 97 - jQuery1323908738176='48'
Main Authors	Davidson, J. A, Novak, G, Matthews, T. G, Matthews, B, Goldsmith, P. F, Chapman, N, Volgenau, N. H, Vaillancourt, J. E, Attard, M
Format	Journal Article
Language	English
Published	Bristol IOP Publishing 10.05.2011 IOP
Subjects	Astronomy ASTROPHYSICS, COSMOLOGY AND ASTRONOMY COSMIC DUST DUSTS Earth, ocean, space EMISSION ENERGY DENSITY Exact sciences and technology MAGNETIC FIELDS POLARIZATION PROTOSTARS Collapse Polarization ISM: jets and outflows Young stellar object Rotation axis Energy density Bipolar flow Star models Protostars stars: formation Alignment Star formation Jets Magnetic structure Magnetic fields techniques: polarimetric ISM: magnetic fields
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Abstract	We report new 350 Delta *mm polarization observations of the thermal dust emission from the cores surrounding the low-mass, Class 0 young stellar objects L1527, IC348-SMM2, and B335. We have inferred magnetic field directions from these observations and have used them together with results in the literature to determine whether magnetically regulated core-collapse and star formation models are consistent with the observations. These models predict a pseudo-disk with its symmetry axis aligned with the core magnetic field. The models also predict a magnetic field pinch structure on a scale less than or comparable to the infall radii for these sources. In addition, if the core magnetic field aligns (or nearly aligns) the core rotation axis with the magnetic field before core collapse, then the models predict the alignment (or near alignment) of the overall pinch field structure with the bipolar outflows in these sources. We show that if one includes the distorting effects of bipolar outflows on magnetic fields, then in general the observational results for L1527 and IC348-SMM2 are consistent with these magnetically regulated models. We can say the same for B335 only if we assume that the distorting effects of the bipolar outflow on the magnetic fields within the B335 core are much greater than for L1527 and IC348-SMM2. We show that the energy densities of the outflows in all three sources are large enough to distort the magnetic fields predicted by magnetically regulated models.
AbstractList	We report new 350 {mu}m polarization observations of the thermal dust emission from the cores surrounding the low-mass, Class 0 young stellar objects L1527, IC348-SMM2, and B335. We have inferred magnetic field directions from these observations and have used them together with results in the literature to determine whether magnetically regulated core-collapse and star formation models are consistent with the observations. These models predict a pseudo-disk with its symmetry axis aligned with the core magnetic field. The models also predict a magnetic field pinch structure on a scale less than or comparable to the infall radii for these sources. In addition, if the core magnetic field aligns (or nearly aligns) the core rotation axis with the magnetic field before core collapse, then the models predict the alignment (or near alignment) of the overall pinch field structure with the bipolar outflows in these sources. We show that if one includes the distorting effects of bipolar outflows on magnetic fields, then in general the observational results for L1527 and IC348-SMM2 are consistent with these magnetically regulated models. We can say the same for B335 only if we assume that the distorting effects of the bipolar outflow on the magnetic fields within the B335 core are much greater than for L1527 and IC348-SMM2. We show that the energy densities of the outflows in all three sources are large enough to distort the magnetic fields predicted by magnetically regulated models. We report new 350 Delta *mm polarization observations of the thermal dust emission from the cores surrounding the low-mass, Class 0 young stellar objects L1527, IC348-SMM2, and B335. We have inferred magnetic field directions from these observations and have used them together with results in the literature to determine whether magnetically regulated core-collapse and star formation models are consistent with the observations. These models predict a pseudo-disk with its symmetry axis aligned with the core magnetic field. The models also predict a magnetic field pinch structure on a scale less than or comparable to the infall radii for these sources. In addition, if the core magnetic field aligns (or nearly aligns) the core rotation axis with the magnetic field before core collapse, then the models predict the alignment (or near alignment) of the overall pinch field structure with the bipolar outflows in these sources. We show that if one includes the distorting effects of bipolar outflows on magnetic fields, then in general the observational results for L1527 and IC348-SMM2 are consistent with these magnetically regulated models. We can say the same for B335 only if we assume that the distorting effects of the bipolar outflow on the magnetic fields within the B335 core are much greater than for L1527 and IC348-SMM2. We show that the energy densities of the outflows in all three sources are large enough to distort the magnetic fields predicted by magnetically regulated models.
Author	Davidson, J. A Attard, M Volgenau, N. H Novak, G Matthews, T. G Matthews, B Goldsmith, P. F Chapman, N Vaillancourt, J. E
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Keywords	Collapse Polarization ISM: jets and outflows Young stellar object Rotation axis Energy density Bipolar flow Star models Protostars stars: formation Alignment Star formation Jets Magnetic structure Magnetic fields techniques: polarimetric ISM: magnetic fields
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Snippet	We report new 350 Delta *mm polarization observations of the thermal dust emission from the cores surrounding the low-mass, Class 0 young stellar objects... We report new 350 {mu}m polarization observations of the thermal dust emission from the cores surrounding the low-mass, Class 0 young stellar objects L1527,...
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SubjectTerms	Astronomy ASTROPHYSICS, COSMOLOGY AND ASTRONOMY COSMIC DUST DUSTS Earth, ocean, space EMISSION ENERGY DENSITY Exact sciences and technology MAGNETIC FIELDS POLARIZATION PROTOSTARS
Title	Magnetic Field Structure Around Low-mass Class 0 Protostars: B335, L1527, and IC348-SMM2
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