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Including Dust Coagulation in Hydrodynamic Models of Protoplanetary Disks: Dust Evolution in the Vicinity of a Jupiter-mass Planet · 1909 · DOI 10.3847/1538-4357/ab46b7

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A giant solution to the disk mass budget problem of planet formation

astro-ph.EP · 2026-04-21 · unverdicted · novelty 4.0

Giant planet formation traps dust in pressure bumps and planetesimal formation converts dust to larger bodies, making evolved disk masses appear low as a natural outcome of these processes, with models matching observations best for initial disk masses of 4-7% solar mass.

Chemistry and IR emission of acetylene in planet-forming regions of T Tauri disks. Impact of elemental abundances and dust properties

astro-ph.EP · 2026-05-18 · 2 refs

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A giant solution to the disk mass budget problem of planet formation astro-ph.EP · 2026-04-21 · unverdicted · none · ref 5
Giant planet formation traps dust in pressure bumps and planetesimal formation converts dust to larger bodies, making evolved disk masses appear low as a natural outcome of these processes, with models matching observations best for initial disk masses of 4-7% solar mass.
Chemistry and IR emission of acetylene in planet-forming regions of T Tauri disks. Impact of elemental abundances and dust properties astro-ph.EP · 2026-05-18 · unreviewed · ref 199 · 2 links

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