Key points are not available for this paper at this time.
Abstract Superthermal gas giant planets or their progenitor cores are known to open deep gaps in protoplanetary disks, which stop large, drifting dust particles on their way to the inner disk. The possible separation of the disk into distinct reservoirs and the resulting dust depletion interior to the gap have important implications for planetesimal formation and the chemical and isotopic composition of the inner regions of protoplanetary disks. Dust fragmentation, however, maintains a reservoir of small grains that can traverse the gap. Dust evolution models are thus instrumental for studies of a gap’s filtration efficiency. We present 2D multifluid hydrodynamic simulations of planet–disk systems with dust coagulation and fragmentation. For the first time, we evolve a series of 2D simulations with dust coagulation over 45,000 planetary orbits and track the dust’s size evolution and origin by using the TriPoD dust coagulation method. We investigate the effects of different planetary masses, fragmentation velocities, and viscosities on the inner disk’s dust mass budget and composition, and highlight the advantages of multidimensional simulations over 1D models. Filtering can only be efficient for high planetary masses, high fragmentation velocities, and low diffusivities. Clear compositional distinctions between the inner and outer disk could not have been maintained by Jupiter’s core if the fragmentation velocity was low, even if α ≲ 5 × 10 −4 . Significant “contamination” of the inner disk by outer-disk dust occurs in much less than 2 × 10 5 yr in this case and even for more-massive objects. This either places tight constraints on the physical conditions in the solar nebula or mandates consideration of alternative explanations for the dichotomy between non-carbonaceous chondrites (NC) and carbonaceous chondrites (CC). Astrophysical constraints on the parameters could discriminate between these possibilities.
Pfeil et al. (Fri,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: