English

Observational Constraints on Submillimeter Dust Opacity

Astrophysics of Galaxies 2015-05-20 v1

Abstract

Infrared extinction maps and submillimeter dust continuum maps are powerful probes of the density structure in the envelope of star-forming cores. We make a direct comparison between infrared and submillimeter dust continuum observations of the low-mass Class 0 core, B335, to constrain the ratio of submillimeter to infrared opacity (\kaprat) and the submillimeter opacity power-law index (κλβ\kappa \propto \lambda^{-\beta}). Using the average value of theoretical dust opacity models at 2.2 \micron, we constrain the dust opacity at 850 and 450 \micron . Using new dust continuum models based upon the broken power-law density structure derived from interferometric observations of B335 and the infall model derived from molecular line observations of B335, we find that the opacity ratios are κ850κ2.2=(3.214.80)0.30+0.44×104\frac{\kappa_{850}}{\kappa_{2.2}} = (3.21 - 4.80)^{+0.44}_{-0.30} \times 10^{-4} and κ450κ2.2=(12.824.8)1.3+2.4×104\frac{\kappa_{450}}{\kappa_{2.2}} = (12.8 - 24.8)^{+2.4}_{-1.3} \times 10^{-4} with a submillimeter opacity power-law index of βsmm=(2.182.58)0.30+0.30\beta_{smm} = (2.18 - 2.58)^{+0.30}_{-0.30}. The range of quoted values are determined from the uncertainty in the physical model for B335. For an average 2.2 \micron\ opacity of 3800±7003800 \pm 700 cm2^2g1^{-1}, we find a dust opacity at 850 and 450 \micron\ of κ850=(1.181.77)0.24+0.36\kappa_{850} = (1.18 - 1.77)^{+0.36}_{-0.24} and κ450=(4.729.13)0.98+1.9\kappa_{450} = (4.72 - 9.13)^{+1.9}_{-0.98} cm2^2g1^{-1} of dust. These opacities are from (0.650.97)κ850OH5(0.65 - 0.97) \kappa^{\rm{OH}5}_{850} of the widely used theoretical opacities of Ossenkopf and Henning for coagulated ice grains with thin mantles at 850\micron.

Keywords

Cite

@article{arxiv.1012.3488,
  title  = {Observational Constraints on Submillimeter Dust Opacity},
  author = {Yancy L. Shirley and Tracy L. Huard and Klaus M. Pontoppidan and David J. Wilner and Amelia M. Stutz and John H. Bieging and Neal J. Evans},
  journal= {arXiv preprint arXiv:1012.3488},
  year   = {2015}
}

Comments

28 pages, 7 figure. Accepted for publication in ApJ

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