2014
DOI: 10.1051/0004-6361/201321716
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Dust in the diffuse interstellar medium

Abstract: We present a model for the diffuse interstellar dust that explains the observed wavelength-dependence of extinction, emission, and the linear and circular polarisation of light. The model is set up with a small number of parameters. It consists of a mixture of amorphous carbon and silicate grains with sizes from the molecular domain of 0.5 up to about 500 nm. Dust grains with radii larger than 6 nm are spheroids. Spheroidal dust particles have a factor 1.5-3 greater absorption cross section in the far-infrared… Show more

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Cited by 112 publications
(131 citation statements)
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“…Basing their work upon the MRN dust model Draine & Lee (1984) semi-empirically tuned graphite and silicate optical properties to fit observations, resulting in "astronomical" graphite and silicate. Polycyclic aromatic hydrocarbon (PAH) molecules were later added into the mix (Desert et al 1990;Siebenmorgen & Kruegel 1992;Dwek et al 1997;, 2002Siebenmorgen et al 2014) but the physical basis for these models, even including the later improvements, is fundamentally little different from the MRN model. It should be noted that in all of these models the different grain populations, for example, graphite and olivine (MRN), astronomical graphite and silicate (Draine & Lee 1984) or astronomical graphite, silicate and PAH (Siebenmorgen & Kruegel 1992;Dwek et al 1997;, 2002Siebenmorgen et al 2014) are considered to reside in distinct and separate dust populations.…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Basing their work upon the MRN dust model Draine & Lee (1984) semi-empirically tuned graphite and silicate optical properties to fit observations, resulting in "astronomical" graphite and silicate. Polycyclic aromatic hydrocarbon (PAH) molecules were later added into the mix (Desert et al 1990;Siebenmorgen & Kruegel 1992;Dwek et al 1997;, 2002Siebenmorgen et al 2014) but the physical basis for these models, even including the later improvements, is fundamentally little different from the MRN model. It should be noted that in all of these models the different grain populations, for example, graphite and olivine (MRN), astronomical graphite and silicate (Draine & Lee 1984) or astronomical graphite, silicate and PAH (Siebenmorgen & Kruegel 1992;Dwek et al 1997;, 2002Siebenmorgen et al 2014) are considered to reside in distinct and separate dust populations.…”
Section: Introductionmentioning
confidence: 99%
“…Polycyclic aromatic hydrocarbon (PAH) molecules were later added into the mix (Desert et al 1990;Siebenmorgen & Kruegel 1992;Dwek et al 1997;, 2002Siebenmorgen et al 2014) but the physical basis for these models, even including the later improvements, is fundamentally little different from the MRN model. It should be noted that in all of these models the different grain populations, for example, graphite and olivine (MRN), astronomical graphite and silicate (Draine & Lee 1984) or astronomical graphite, silicate and PAH (Siebenmorgen & Kruegel 1992;Dwek et al 1997;, 2002Siebenmorgen et al 2014) are considered to reside in distinct and separate dust populations. Some later dust models followed this same basic approach but abandoned astronomical graphite in favour of physically more-realistic amorphous carbons (e.g., Zubko et al 2004;Compiègne et al 2011;Galliano et al 2011).…”
Section: Introductionmentioning
confidence: 99%
“…These data were used to define the dust models of Draine & Li (2007), Compiègne et al (2011) and Siebenmorgen et al (2014), and the analytical fit proposed by Finkbeiner et al (1999), which has been widely used by the CMB community to extrapolate the IRAS all-sky survey to microwave frequencies. Today the Planck data allow us to characterize the dust emission at millimetre wavelengths directly from observations.…”
Section: Introductionmentioning
confidence: 99%
“…Such complex regions are deliberately not considered here. We limit our analysis to lines of sight through the diffuse ISM, for which more homogeneous properties might be expected, and for which the most comprehensive observational constraints on dust models are already available and exploited (e.g., Draine & Li 2007;Compiegne et al 2011;Jones et al 2013;Siebenmorgen et al 2014).…”
Section: Introductionmentioning
confidence: 99%
“…The most recent are further constrained by fitting the (pre-Planck) spectral energy distribution of dust emission in the infrared and submillimetre (Draine & Fraisse 2009;Siebenmorgen et al 2014). Efforts have also been made to predict the polarized thermal emission quantitatively (Martin 2007;Draine & Fraisse 2009;Draine & Hensley 2013).…”
Section: Introductionmentioning
confidence: 99%