English

Dust Transport and Processing in Centrifugally Driven Protoplanetary Disk Winds

Solar and Stellar Astrophysics 2019-09-04 v1 Earth and Planetary Astrophysics

Abstract

There is evidence that protoplanetary disks--including the protosolar one--contain crystalline dust grains on spatial scales where the dust temperature is lower than the threshold value for their formation through thermal annealing of amorphous interstellar silicates. We interpret these observations in terms of an extended, magnetocentrifugally driven disk wind that transports grains from the inner disk--where they are thermally processed by the stellar radiation after being uplifted from the disk surfaces--to the outer disk regions. For any disk radius rr there is a maximum grain size amax(r)a_\mathrm{max}(r) that can be uplifted from that location: grains of size aa\llamaxa_\mathrm{max} are carried away by the wind, whereas those with aa\lesssimamaxa_\mathrm{max} reenter the disk at larger radii. A significant portion of the reentering grains converge to--and subsequently accumulate in--a narrow region just beyond rmax(a)r_\mathrm{max}(a), the maximum radius from which grains of size aa can be uplifted. We show that this model can account for the inferred crystallinity fractions in classical T Tauri and Herbig Ae disks and for their indicated near constancy after being established early in the disk evolution. It is also consistent with the reported radial gradients in the mean grain size, crystallinity, and crystal composition. In addition, this model yields the properties of the grains that remain embedded in the outflows from protoplanetary disks and naturally explains the inferred persistence of small grains in the surface layers of these disks.

Keywords

Cite

@article{arxiv.1907.04961,
  title  = {Dust Transport and Processing in Centrifugally Driven Protoplanetary Disk Winds},
  author = {Steven Giacalone and Seth Teitler and Arieh Königl and Sebastiaan Krijt and Fred J. Ciesla},
  journal= {arXiv preprint arXiv:1907.04961},
  year   = {2019}
}

Comments

ApJ, in press

R2 v1 2026-06-23T10:17:59.324Z