Determination of the far-infrared dust opacity in a prestellar core - Archive ouverte HAL Access content directly
Journal Articles Astronomy and Astrophysics - A&A Year : 2013

Determination of the far-infrared dust opacity in a prestellar core

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Abstract

Context. Mass estimates of interstellar clouds from far-infrared and submillimetre mappings depend on the assumed dust absorption cross-section for radiation at those wavelengths.Aims. The aim is to determine the far-IR dust absorption cross-section in a starless, dense core located in Corona Australis. The value is needed for determining of the core mass and other physical properties. It can also have a bearing on the evolutionary stage of the core.Methods. We correlated near-infrared stellar H − Ks colour excesses of background stars from NTT/SOFI with the far-IR optical depth map, τFIR, derived from Herschel 160, 250, 350, and 500 μm data. The Herschel maps were also used to construct a model for the cloud to examine the effect of temperature gradients on the estimated optical depths and dust absorption cross-sections.Results. A linear correlation is seen between the colour H − Ks and τFIR up to high extinctions (AV ~ 25). The correlation translates to the average extinction ratio A250  μm/AJ = 0.0014 ± 0.0002, assuming a standard near-infrared extinction law and a dust emissivity index β = 2. Using an empirical NH/AJ ratio we obtain an average absorption cross-section per H nucleus of σH250 μm = (1.8 ± 0.3) × 10-25  cm H-atom, corresponding to a cross-section per unit mass of gas κ250 μmg = 0.08 ± 0.01  cm g. The cloud model, however, suggests that owing to the bias caused by temperature changes along the line-of-sight, these values underestimate the true cross-sections by up to 40% near the centre of the core. Assuming that the model describes the effect of the temperature variation on τFIR correctly, we find that the relationship between H − Ks and τFIR agrees with the recently determined relationship between σH and NH in Orion A. Conclusions. The derived far-IR cross-section agrees with previous determinations in molecular clouds with moderate column densities, and is not particularly large compared with some other cold cores. We suggest that this is connected to the core not being very dense (the central density is likely to be  ~105 cm), and judging from previous molecular line data, it appears to be at an early stage of chemical evolution.
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Dates and versions

cea-01135401 , version 1 (25-03-2015)

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A. Suutarinen, L. K. Haikala, J. Harju, M. Juvela, Ph. André, et al.. Determination of the far-infrared dust opacity in a prestellar core. Astronomy and Astrophysics - A&A, 2013, 555, pp.A140. ⟨10.1051/0004-6361/201219103⟩. ⟨cea-01135401⟩
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