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When planetesimals grow via collisions in a turbulent disk, stirring through density fluctuation caused by turbulence effectively increases the relative velocities between planetesimals, which suppresses the onset of runaway growth. We…

Earth and Planetary Astrophysics · Physics 2016-02-03 Hiroshi Kobayashi , Hidekazu Tanaka , Satoshi Okuzumi

Resolved images suggest that asymmetric structures are a common feature of cold debris disks. While planets close to these disks are rarely detected, their hidden presence and gravitational perturbations provide plausible explanations for…

Earth and Planetary Astrophysics · Physics 2019-11-19 J. A. Sende , T. Löhne

Collisional evolution is a key process in planetesimal formation and decimetre bodies play a key role in the different models. However, the outcome of collisions between two dusty decimetre bodies has never been studied experimentally.…

Earth and Planetary Astrophysics · Physics 2013-05-28 Johannes Deckers , Jens Teiser

We carry out a systematic exploration of the effect of pre-impact rotation on the outcomes of low-speed collisions between planetesimals modeled as gravitational aggregates. We use pkdgrav, a cosmology code adapted to collisional problems…

Earth and Planetary Astrophysics · Physics 2014-06-23 Ronald-Louis Ballouz , Derek C. Richardson , Patrick Michel , Stephen R. Schwartz

During the last stages of the terrestrial planet formation, planets grow mainly through giant-impacts with large planetary embryos. The Earth's Moon was suggested to form through one of these impacts. However, since the proto-Earth has…

Earth and Planetary Astrophysics · Physics 2018-07-11 Uri Malamud , Hagai B. Perets , Christoph Schafer , Christoph Burger

We investigate the formation of planetesimals via the gravitational instability of solids that have settled to the midplane of a circumstellar disk. Vertical shear between the gas and a subdisk of solids induces turbulent mixing which…

Astrophysics · Physics 2008-11-26 Andrew N. Youdin , Frank H. Shu

Cometary impacts play an important role in the early evolution of Earth, and other terrestrial exoplanets. Here, we present a numerical model for the interaction of weak, low-density cometary impactors with planetary atmospheres, which…

Earth and Planetary Astrophysics · Physics 2025-03-31 Richard J Anslow , Amy Bonsor , Zoe R Todd , Robin Wordsworth , Auriol S P Rae , Catriona H McDonald , Paul B Rimmer

Most major planetary bodies in the solar system rotate in the same direction as their orbital motion: their spin is prograde. Theoretical studies to explain the direction as well as the magnitude of the spin vector have had mixed success.…

Earth and Planetary Astrophysics · Physics 2019-09-25 R. G. Visser , C. W. Ormel , C. Dominik , S. Ida

The first challenge in the formation of both terrestrial planets and the cores of gas giants is the retention of grains in protoplanetary disks. In most regions of these disks, gas attains sub-Keplerian speeds as a consequence of a negative…

Astrophysics · Physics 2009-11-13 Katherine A. Kretke , D. N. C. Lin

We report on the differences between colloidal systems left to evolve in the earth's gravitational field and the same systems for which a slow continuous rotation averaged out the effects of particle sedimentation on a distance scale small…

The consistency of planet formation models suffers from the disconnection between the regime of small and large bodies. This is primarily caused by so-called growth barriers: the direct growth of larger bodies is halted at centimetre-sized…

Earth and Planetary Astrophysics · Physics 2016-10-19 Joanna Drazkowska , Yann Alibert , Ben Moore

We investigate dust growth due to settling in a 1D vertical column of a protoplanetary disk. It is known from the observed 10 micron feature in disk SEDs, that small micron-sized grains are present at the disk atmosphere throughout the…

Earth and Planetary Astrophysics · Physics 2015-05-28 A. Zsom , C. W. Ormel , C. P. Dullemond , Th. Henning

We explore the appearance of terrestrial planets in formation by studying the emergent spectra of hot molten protoplanets during their collisional formation. While such collisions are rare, the surfaces of these bodies may remain hot at…

Earth and Planetary Astrophysics · Physics 2015-05-13 Eliza Miller-Ricci , Michael R. Meyer , Sara Seager , Linda Elkins-Tanton

Context: In protoplanetary disks, dust grains coagulate with each other and grow to form aggregates. As these aggregates grow by coagulation, their filling factor \phi decreases down to \phi << 1. However, comets, the remnants of these…

Earth and Planetary Astrophysics · Physics 2015-06-15 Akimasa Kataoka , Hidekazu Tanaka , Satoshi Okuzumi , Koji Wada

Planetesimals are believed to form by the gravitational collapse of aerodynamically concentrated clumps of pebbles. Many properties of the objects in the cold classical Kuiper belt -- such as binarity, rotation, and size distribution -- are…

Earth and Planetary Astrophysics · Physics 2024-01-11 Sebastian Lorek , Anders Johansen

The solid content of circumstellar disks is inherited from the interstellar medium: dust particles of at most a micrometer in size. Protoplanetary disks are the environment where these dust grains need to grow at least 13 orders of…

Solar and Stellar Astrophysics · Physics 2016-05-19 T. Birnstiel , M. Fang , A. Johansen

The collision dynamics of dusty bodies are crucial for planetesimal formation. Especially decimeter agglomerates are important in the different formation models. Therefore, in continuation of our experiments on mutual decimeter collisions,…

Earth and Planetary Astrophysics · Physics 2014-11-17 Johannes Deckers , Jens Teiser

Collisions between particles suspended in a fluid play an important role in many physical processes. As an example, collisions of microscopic water droplets in clouds are a necessary step in the production of macroscopic raindrops.…

Fluid Dynamics · Physics 2016-04-20 Alain Pumir , Michael Wilkinson

The kinetic theory is used to study the evolution of the self-gravitating disk of planetesimals. The effects of frequent collisions between planetesimals are taken into account by using a Krook integral in the Boltzmann kinetic equation. It…

Astrophysics · Physics 2007-05-23 Evgeny Griv , Michael Gedalin , Edward Liverts , David Eichler , Chi Yuan

We examine the predictions of the core accretion - gas capture model concerning the efficiency of planet formation around stars with various masses. First, we follow the evolution of gas and solids from the moment when all solids are in the…

Astrophysics · Physics 2009-11-11 Kacper Kornet , Sebastian Wolf , Michal Rozyczka