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Related papers: Pebble trapping in vortices: three-dimensional sim…

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Coagulation theory predicts that micron-sized dust grains grow into pebbles which drift inward towards the star, when they reach sizes of mm-cm. When they cross the orbit of a planet, a fraction of these drifting pebbles will be accreted.…

Earth and Planetary Astrophysics · Physics 2018-08-01 Beibei Liu , Chris W. Ormel

The streaming instability is the leading model for planetesimal formation in protoplanetary disks, but it typically operates within the first ~Myr. In the Solar System, however, some planetesimals (the chondrite parent bodies) formed 2-4…

Earth and Planetary Astrophysics · Physics 2026-05-29 Maya Tatarelli , Alessandro Morbidelli , Elena Lega

The formation of planetesimals via gravitational instability of the dust layer in a protoplanetary disks demands that there be local patches where dust is concentrated by a factor of $\sim$ a few $\times 10^3$ over the background value.…

Earth and Planetary Astrophysics · Physics 2015-05-19 Philip Chang , Jeffrey S. Oishi

In the context of planet formation, anticyclonic vortices have recently received lots of attention for the role they can play in planetesimals formation. Radial migration of intermediate size solids toward the central star may prevent their…

Earth and Planetary Astrophysics · Physics 2015-06-04 H. Meheut , R. Keppens , F. Casse , W. Benz

Content: For up to a few millions of years, pebbles must provide a quasi-steady inflow of solids from the outer parts of protoplanetary disks to their inner regions. Aims: We wish to understand how a significant fraction of the pebbles…

Earth and Planetary Astrophysics · Physics 2016-12-07 Shigeru Ida , Tristan Guillot

Aims. Dust plays a crucial role in the evolution of protoplanetary disks. We study the dynamics and growth of initially sub-$\mu m$ dust particles in self-gravitating young protoplanetary disks with various strengths of turbulent viscosity.…

Large scale vortices could play a key role in the evolution of protoplanetary disks, particularly in the dead-zone where no turbulence associated with magnetic field is expected. Their possible formation by the subcritical baroclinic…

Earth and Planetary Astrophysics · Physics 2016-08-17 P. Barge , S. Richard , S. Le Dizes

Some scenarios for planetesimal formation go through a phase of collapse of gravitationally bound clouds of mm-cm-sized pebbles. Such clouds can form for example through the streaming instability in protoplanetary disks. We model the…

Earth and Planetary Astrophysics · Physics 2017-01-25 Karl Wahlberg Jansson , Anders Johansen , Mohtashim Bukhari Syed , Jürgen Blum

This manuscript investigates the impact of key dust evolution parameters on dust retention and trapping in protoplanetary discs. Using models with and without pressure bumps, combined with radiative transfer simulations, images of the dust…

Earth and Planetary Astrophysics · Physics 2026-01-07 Paola Pinilla

We study the effect of a migrating planet ($10<M_p<20$ Earth mass) on the dynamics of pebbles in a radiative disk using 2D two-fluid simulations carried out with the RoSSBi code. The combined action of the waves induced by the migrating…

Earth and Planetary Astrophysics · Physics 2020-09-11 Clément Surville , Lucio Mayer , Yann Alibert

The growth process of proto-planets can be sped-up by accreting a large number of solid, pebble-sized objects that are still present in the protoplanetary disc. It is still an open question on how efficient this process works in realistic…

Earth and Planetary Astrophysics · Physics 2018-08-29 Giovanni Picogna , Moritz H. R. Stoll , Wilhelm Kley

Planet formation is thought to occur in discs around young stars by the aggregation of small dust grains into much larger objects. The growth from grains to pebbles and from planetesimals to planets is now fairly well understood. The…

Earth and Planetary Astrophysics · Physics 2017-09-01 Jean-François Gonzalez , Guillaume Laibe , Sarah T. Maddison

Protoplanetary discs may become dynamically unstable due to structure induced by an embedded giant planet. In this thesis, I discuss the stability of such systems and explore the consequence of instability on planetary migration. I begin…

Earth and Planetary Astrophysics · Physics 2012-03-23 Min-Kai Lin

Quantized vortices stunningly illustrate the coherent nature of a superfluid Bose condensate of alkali atoms. Introducing an optical lattice depletes this coherence. Consequently, novel vortex physics may emerge in an experiment on a…

Other Condensed Matter · Physics 2008-07-24 Daniel S. Goldbaum , Erich J. Mueller

Recent laboratory experiments have revealed that destructive collisions of icy dust particles may occur at much lower velocities than previously believed. These low fragmentation velocities push down the maximum grain size in collisional…

Earth and Planetary Astrophysics · Physics 2023-11-15 Haochang Jiang , Enrique Macías , Osmar M. Guerra-Alvarado , Carlos Carrasco-González

The presence of a giant planet in a low-viscosity disc can create a gap edge in the disc's radial density profile sharp enough to excite the Rossby Wave Instability. This instability may evolve into dust-trapping vortices that might explain…

Earth and Planetary Astrophysics · Physics 2017-02-01 Michael Hammer , Kaitlin M. Kratter , Min-Kai Lin

Aims. The initial stages of planet formation may start concurrently with the formation of a gas-dust protoplanetary disk. This makes the study of the earliest stages of protoplanetary disk formation crucially important. Here we focus on…

Earth and Planetary Astrophysics · Physics 2024-01-05 Eduard Vorobyov , Igor Kulikov , Vardan Elbakyan , James McKevitt , Manuel Guedel

The formation of planetary cores must proceed rapidly in order for the giant planets to accrete their gaseous envelopes before the dissipation of the protoplanetary gas disc (<3 Myr). In orbits beyond 10 AU, direct accumulation of…

Earth and Planetary Astrophysics · Physics 2016-04-05 Michiel Lambrechts , Anders Johansen

We investigate the evolution of dust and gas in the vicinity of local pressure enhancements (pressure bumps) in a protoplanetary disc (PPD) with turbulence due to the Vertical Shear Instability (VSI). We perform global 2D axisymmetric and…

Earth and Planetary Astrophysics · Physics 2022-03-14 Marius Lehmann , Min-Kai Lin

Substructures in protoplanetary disks can act as dust traps that shape the radial distribution of pebbles. By blocking the passage of pebbles, the presence of gaps in disks may have a profound effect on pebble delivery into the inner disk,…