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      Opacity of fluffy dust aggregates

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          Abstract

          Context. Dust grains coagulate to form dust aggregates in protoplanetary disks. Their porosity can be extremely high in the disks. Although disk emission may come from fluffy dust aggregates, the emission has been modeled with compact grains. Aims. We aim to reveal the mass opacity of fluffy aggregates from infrared to millimeter wavelengths with the filling factor ranging from 1 down to \(10^{-4}\). Methods. We use Mie calculations with an effective medium theory. The monomers are assumed to be 0.1 \({\rm \mu m}\) sized grains, which is much shorter than the wavelengths that we focus on. Results. We find that the absorption mass opacity of fluffy aggregates are characterized by the product \(a\times f\), where \(a\) is the dust radius and \(f\) is the filling factor, except for the interference structure. The scattering mass opacity is also characterized by \(af\) at short wavelengths while it is higher in more fluffy aggregates at long wavelengths. We also derive the analytic formula of the mass opacity and find that it reproduces the Mie calculations. We also calculate the expected difference of the emission between compact and fluffy aggregates in protoplanetary disks with a simple dust growth and drift model. We find that compact grains and fluffy aggregates can be distinguished by the radial distribution of the opacity index \(\beta\). The previous observation of the radial distribution of \(\beta\) is consistent with the fluffy case, but more observations are required to distinguish between fluffy or compact. In addition, we find that the scattered light would be another way to distinguish between compact grains and fluffy aggregates.

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          Author and article information

          Journal
          05 December 2013
          2014-08-15
          Article
          10.1051/0004-6361/201323199
          1312.1459

          http://arxiv.org/licenses/nonexclusive-distrib/1.0/

          Custom metadata
          A&A 568, A42 (2014)
          16 pages, 17 figures, published in A&A, 568, A42
          astro-ph.EP astro-ph.SR

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