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The protoplanetary disks of Herbig Ae stars eventually dissipate leaving a tenuous debris disk comprised of planetesimals and dust, as well as possibly gas and planets. This paper uses the properties of 10-20Myr A star debris disks to…

Earth and Planetary Astrophysics · Physics 2015-06-03 Mark C. Wyatt , Olja Panic , Grant M. Kennedy , Luca Matra

Most detected planet-bearing binaries are in wide orbits, for which a high inclination, $i_B$, between the binary orbital plane and the plane of the planetary disk around the primary is likely to be common. In this paper, we investigate the…

Earth and Planetary Astrophysics · Physics 2015-05-27 Ji-Wei Xie , Matthew Payne , Philippe Thebault , Ji-Lin Zhou , Jian Ge

We present three-dimensional numerical simulations of particle clumping and planetesimal formation in protoplanetary disks with varying amounts of solid material. As centimeter-size pebbles settle to the mid-plane, turbulence develops…

Earth and Planetary Astrophysics · Physics 2014-11-20 Anders Johansen , Andrew Youdin , Mordecai-Mark Mac Low

Planet formation may begin much earlier than previously expected, when the protoplanetary disk is still massive and gravitationally unstable. It has been proposed that solid grains can concentrate in the spiral arms of self-gravitating…

Earth and Planetary Astrophysics · Physics 2025-11-04 Hans Baehr , Ken Rice , Chao-Chin Yang , Cassandra Hall

According to the sequential accretion model, giant planet formation is based first on the formation of a solid core which, when massive enough, can gravitationally bind gas from the nebula to form the envelope. In order to trigger the…

Earth and Planetary Astrophysics · Physics 2015-06-11 A. Fortier , Y. Alibert , F. Carron , W. Benz , K. -M. Dittkrist

The growth of dust grains in protoplanetary disks is a necessary first step towards planet formation. This growth has been inferred via observations of thermal dust emission towards mature protoplanetary systems (age >2 million years) with…

No planets exist inside the orbit of Mercury and the terrestrial planets of the solar system exhibit a localized configuration. According to thermal structure calculation of protoplanetary disks, a silicate condensation line (~ 1300 K) is…

Earth and Planetary Astrophysics · Physics 2018-05-16 Masahiro Ogihara , Eiichiro Kokubo , Takeru K. Suzuki , Alessandro Morbidelli

The origin of observed planetary systems, including our Solar System, as well as their diversity, is still an open question. Streaming instability (SI) is an important mechanism for the formation of gravitationally bound planetesimals,…

Earth and Planetary Astrophysics · Physics 2025-07-02 Kundan Kadam , Zsolt Regály

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

The gravitational instability of a dust layer is one of the scenarios for planetesimal formation. If the density of a dust layer becomes sufficiently high as a result of the sedimentation of dust grains toward the midplane of a…

Earth and Planetary Astrophysics · Physics 2015-05-14 Shugo Michikoshi , Eiichiro Kokubo , Shu-ichiro Inutsuka

While it is widely accepted that planets are formed in protoplanetary disks, there is still much debate on when this process happens. In a few cases protoplanets have been directly imaged, but for the vast majority of systems, disk gaps and…

Earth and Planetary Astrophysics · Physics 2020-11-25 Felipe O. Alves , L. Ilsedore Cleeves , Josep M. Girart , Zhaohuan Zhu , Gabriel A. P. Franco , Alice Zurlo , Paola Caselli

The rapid depletion of dust particles in protoplanetary disks limits the time available for planetesimal formation, as solids are typically accreted onto the central star before dust particles can undergo substantial growth. Dust traps…

Earth and Planetary Astrophysics · Physics 2026-01-06 D. Tarczay-Nehéz

It is difficult to imagine a planet formation model that does not at some stage include a gravitationally unstable disc. Initially unstable gas-dust discs may form planets directly, but the high surface density required has motivated the…

Astrophysics · Physics 2009-11-13 Alexander Hubbard , Eric G. Blackman

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

Rapid orbital drift of macroscopic dust particles is one of the major obstacles against planetesimal formation in protoplanetary disks. We reexamine this problem by considering porosity evolution of dust aggregates. We apply a porosity…

Earth and Planetary Astrophysics · Physics 2015-06-04 Satoshi Okuzumi , Hidekazu Tanaka , Hiroshi Kobayashi , Koji Wada

Radio images of protoplanetary disks demonstrate that dust grains tend to organize themselves into rings. These rings may be a consequence of dust trapping within gas pressure maxima wherein the local high dust-to-gas ratio is expected to…

Earth and Planetary Astrophysics · Physics 2022-10-12 Eve J. Lee , J. R. Fuentes , Philip F. Hopkins

Planetesimal formation models often invoke the gravitational collapse of pebble clouds to overcome various barriers to grain growth and propose processes to concentrate particles sufficiently to trigger this collapse. On the other hand, the…

Earth and Planetary Astrophysics · Physics 2024-12-11 P. Segretain , H. Méheut , M. Moreira , G. Lesur , C. Robert , J. Mauxion

The formation of planetesimals was an integral part of the cascading series of processes that built the terrestrial planets. To illuminate planetesimal formation, here we develop a refined thermal evolution model to calculate the formation…

Earth and Planetary Astrophysics · Physics 2026-02-25 James Bryson , Hannah Sanderson , Francis Nimmo , Sanjana Sridhar , Gregory Brennecka , Yves Marrocchi , Jason Terry

We have studied dust evolution in a quiescent or turbulent protoplanetary disk by numerically solving coagulation equation for settling dust particles, using the minimum mass solar nebular model. As a result, if we assume an ideally…

Astrophysics · Physics 2009-11-11 Hideko Nomura , Yoshitsugu Nakagawa

We review the basic dynamics and accretion of planetesimals by showing N-body simulations. The orbits of planetesimals evolve through two-body gravitational relaxation: viscous stirring increases the random velocity and dynamical friction…

Earth and Planetary Astrophysics · Physics 2012-12-10 Eiichiro Kokubo , Shigeru Ida
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