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  • 标题:Dust in brown dwarfs and extra-solar planets
  • 其他标题:VI. Assessing seed formation across the brown dwarf and exoplanet regimes
  • 本地全文:下载
  • 作者:G. K. H. Lee ; J. Blecic ; Ch. Helling
  • 期刊名称:Astronomy & Astrophysics
  • 印刷版ISSN:0004-6361
  • 电子版ISSN:1432-0746
  • 出版年度:2018
  • 卷号:614
  • DOI:10.1051/0004-6361/201731977
  • 语种:English
  • 出版社:EDP Sciences
  • 摘要:Context.The cloud formation process starts with the formation of seed particles, after which, surface chemical reactions grow or erode the cloud particles. If seed particles do not form, or are not available by another means, an atmosphere is unable to form a cloud complex and will remain cloud free.Aims.We aim to investigate which materials may form cloud condensation seeds in the gas temperature and pressure regimes (Tgas= 100–2000 K,pgas= 10−8–100 bar) expected to occur in planetary and brown dwarf atmospheres.Methods.We have applied modified classical nucleation theory which requires surface tensions and vapour pressure data for each solid species, which are taken from the literature. Input gas phase number densities are calculated assuming chemical equilibrium at solar metallicity.Results.We calculated the seed formation rates of TiO2[s] and SiO[s] and find that they efficiently nucleate at high temperatures ofTgas= 1000–1750 K. Cr[s], KCl[s] and NaCl[s] are found to efficiently nucleate across an intermediate temperature range ofTgas= 500–1000 K. We find CsCl[s] may serve as the seed particle for the water cloud layers in cool sub-stellar atmospheres. The nucleation rates of four low temperature ice species (Tgas= 100–250 K), H2O[s/l], NH3[s], H2S[s/l], and CH4[s], are also investigated for the coolest sub-stellar and planetary atmospheres.Conclusions.Our results suggest a possibly (Tgas,pgas) distributed hierarchy of seed particle formation regimes throughout the substellar and planetary atmospheric temperature-pressure space. With TiO2[s] providing seed particles for the most refractory cloud formation species (e.g. Al2O3[s], Fe[s], MgSiO3[s], Mg2SiO4[s]), Cr[s] providing the seed particles for MnS[s], Na2S[s], and ZnS[s] sulfides, and K/Na/Rb/Cs/NH4-Cl binding solid species providing the seed particles for H2O[s/l] and NH4-H2PO4/SH[s] clouds.A detached, high-altitude aerosol layer may form in some sub-stellar atmospheres from the nucleation process, dependent on the upper atmosphere temperature, pressure and availability of volatile elements. In order to improve the accuracy of the nucleation rate calculation, further research into the small cluster thermochemical data for each cloud species is warranted. The validity of these seed particle scenarios will be tested by applying it to more complete cloud models in the future.
  • 关键词:enplanets and satellites: atmospheresstars: atmospheresbrown dwarfsmethods: numerical
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