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W2922178839 endingPage "5234" @default.
W2922178839 startingPage "5221" @default.
W2922178839 abstract "Enhancing the local dust-to-gas ratio in protoplanetary discs is a necessary first step to planetesimal formation. In laminar discs, dust settling is an efficient mechanism to raise the dust-to-gas ratio at the disc midplane. However, turbulence, if present, can stir and lift dust particles, which ultimately hinders planetesimal formation. In this work, we study dust settling in protoplanetary discs with hydrodynamic turbulence sustained by the vertical shear instability. We perform axisymmetric numerical simulations to investigate the effect of turbulence, particle size, and solid abundance or metallicity on dust settling. We highlight the positive role of drag forces exerted onto the gas by the dust for settling to overcome the vertical shear instability. In typical disc models we find particles with a Stokes number $sim 10^{-3}$ can sediment to $lesssim 10%$ of the gas scale-height, provided that $Sigma_mathrm{d}/Sigma_mathrm{g}gtrsim 0.02$-$0.05$, where $Sigma_mathrm{d,g}$ are the surface densities in dust and gas, respectively. This coincides with the metallicity condition for small particles to undergo clumping via the streaming instability. Super-solar metallicities, at least locally, are thus required for a self-consistent picture of planetesimal formation. Our results also imply that dust rings observed in protoplanetary discs should have smaller scale-heights than dust gaps, provided that the metallicity contrast between rings and gaps exceed the corresponding contrast in gas density." @default.
W2922178839 created "2019-03-22" @default.
W2922178839 creator A5067655724 @default.
W2922178839 date "2019-03-11" @default.
W2922178839 modified "2023-10-03" @default.
W2922178839 title "Dust settling against hydrodynamic turbulence in protoplanetary discs" @default.
W2922178839 cites W1623184197 @default.
W2922178839 cites W1813941422 @default.
W2922178839 cites W1830399775 @default.
W2922178839 cites W1965064080 @default.
W2922178839 cites W1980179891 @default.
W2922178839 cites W1987005932 @default.
W2922178839 cites W1988498914 @default.
W2922178839 cites W1991761726 @default.
W2922178839 cites W1998471353 @default.
W2922178839 cites W2006491802 @default.
W2922178839 cites W2011177045 @default.
W2922178839 cites W2031065107 @default.
W2922178839 cites W2036202032 @default.
W2922178839 cites W2043827471 @default.
W2922178839 cites W2049013365 @default.
W2922178839 cites W2049527803 @default.
W2922178839 cites W2054668405 @default.
W2922178839 cites W2054844325 @default.
W2922178839 cites W2056589986 @default.
W2922178839 cites W2063451176 @default.
W2922178839 cites W2068433364 @default.
W2922178839 cites W2069325316 @default.
W2922178839 cites W2089025429 @default.
W2922178839 cites W2120918331 @default.
W2922178839 cites W2136537615 @default.
W2922178839 cites W2147219418 @default.
W2922178839 cites W2149470802 @default.
W2922178839 cites W2150526531 @default.
W2922178839 cites W2154091511 @default.
W2922178839 cites W2167486498 @default.
W2922178839 cites W2223572600 @default.
W2922178839 cites W2230126588 @default.
W2922178839 cites W2232317301 @default.
W2922178839 cites W2290726778 @default.
W2922178839 cites W2307322903 @default.
W2922178839 cites W2331164329 @default.
W2922178839 cites W2418876312 @default.
W2922178839 cites W2549068182 @default.
W2922178839 cites W2586583384 @default.
W2922178839 cites W2731278984 @default.
W2922178839 cites W2770185682 @default.
W2922178839 cites W2770259218 @default.
W2922178839 cites W2798613580 @default.
W2922178839 cites W2799217047 @default.
W2922178839 cites W2883776574 @default.
W2922178839 cites W2951022004 @default.
W2922178839 cites W3098631196 @default.
W2922178839 cites W3098774346 @default.
W2922178839 cites W3098911269 @default.
W2922178839 cites W3099169548 @default.
W2922178839 cites W3099796087 @default.
W2922178839 cites W3100401297 @default.
W2922178839 cites W3100998258 @default.
W2922178839 cites W3101275861 @default.
W2922178839 cites W3102558097 @default.
W2922178839 cites W3102581452 @default.
W2922178839 cites W3102886894 @default.
W2922178839 cites W3103393141 @default.
W2922178839 cites W3103773279 @default.
W2922178839 cites W3103805048 @default.
W2922178839 cites W3104200525 @default.
W2922178839 cites W3104485928 @default.
W2922178839 cites W3104582542 @default.
W2922178839 cites W3104976288 @default.
W2922178839 cites W3106313226 @default.
W2922178839 cites W3106487810 @default.
W2922178839 cites W3106542646 @default.
W2922178839 cites W3121693586 @default.
W2922178839 cites W3124268125 @default.
W2922178839 cites W3124935840 @default.
W2922178839 cites W4251585788 @default.
W2922178839 cites W4293021318 @default.
W2922178839 doi "https://doi.org/10.1093/mnras/stz701" @default.
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