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Showing 7 of 7 citing papers.

• Modelling the Break in the Specific Angular Momentum within the Envelope-Disk Transition Zone astro-ph.SR · 2026-02-14 · conditional · none · ref 6

  MHD collapse simulations define an Envelope-Disk Transition Zone (ENDTRANZ) where a jump in the j-r profile occurs due to positive gravitational torques, with a corresponding jump detected in ALMA observations of L1527 IRS.

• Beyond the $\alpha$ model: scaling the wind-driven accretion rate in protoplanetary disks using systematic non-ideal magnetohydrodynamical simulations astro-ph.EP · 2026-05-06 · unverdicted · none · ref 4

  Non-ideal MHD shearing-box simulations with a new damping scheme yield power-law scalings for wind-driven accretion rates based on midplane plasma beta, ambipolar Elsasser number, and active layer thickness that match results within a factor of 2-3.

• $\alpha\beta q_\mathrm{th}$-mapping of planet-induced density wave damping in protoplanetary discs astro-ph.EP · 2026-05-12 · unverdicted · none · ref 57

  Nonlinear shock formation dominates angular momentum deposition from planet-induced density waves, cooling matches it for sub-thermal planets, and viscosity only matters at unrealistically high values.

• Diverse dust vertical height and settling strength conditions in protoplanetary discs astro-ph.EP · 2026-05-07 · unverdicted · none · ref 6

  Modeling of ALMA observations reveals diverse vertical heights for millimeter dust in six protoplanetary disks, from very thin in T Cha and PDS 111 to extended in DoAr 25, with models failing to match small dust distributions.

• Dust characterization of halos: The extended emission in protoplanetary disks astro-ph.EP · 2026-04-20 · conditional · none · ref 170

  Halos in Elias 2-24, IM Lup, and DM Tau hold 20-30% of total dust mass with cm-sized grains, helping resolve the disk mass-budget problem even though drift and growth timescales are shorter than disk ages.

• Rapid and Predictive Planet Population Synthesis Model (RAPPS) I. Upgraded model and resulting synthetic populations astro-ph.EP · 2026-04-20 · unverdicted · none · ref 43

  An upgraded planet population synthesis model incorporates post-disc dynamical evolution and atmospheric enrichment to generate synthetic exoplanet populations with improved fidelity to N-body results and observations.

• The formation of planetary systems: physics, populations, and architectures astro-ph.EP · 2026-04-10 · unverdicted · none · ref 107

  The Bern Model has incorporated MHD disk evolution, pebble accretion, and improved interiors, yielding quantitative matches to exoplanet mass functions, radius distributions, and system architectures.