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Related papers: Grain Growth During Protostellar Disk Formation

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(abridged) In the core accretion scenario for the formation of planetary rocky cores, the first step toward planet formation is the growth of dust grains into larger and larger aggregates and eventually planetesimals. Although dust grains…

Planet formation in protoplanetary discs requires dust grains to coagulate from the sub-micron sizes that are found in the interstellar medium into much larger objects. For the first time, we study the growth of dust grains during the…

Astrophysics of Galaxies · Physics 2022-06-01 Matthew R. Bate

Recent research on the buildup of rocks from small dust grains has reaffirmed that grain growth in protoplanetary disks should occur quickly. Calculation of growth rates have been made for a variety of growth processes and generally predict…

Astrophysics · Physics 2007-05-23 Steven V. W. Beckwith , Thomas Henning , Yoshitsugu Nakagawa

Aims: In order to understand the first stages of planet formation, when tiny grains aggregate to form planetesimals, one needs to simultaneously model grain growth, vertical settling and radial migration of dust in protoplanetary disks. In…

Astrophysics · Physics 2009-11-13 Guillaume Laibe , Jean-François Gonzalez , Laure Fouchet , Sarah T. Maddison

Typical accretion disks around massive protostars are hot enough for water ice to sublimate. We here propose to utilize the massive protostellar disks for investigating the collisional evolution of silicate grains with no ice mantle, which…

Earth and Planetary Astrophysics · Physics 2023-06-08 Ryota Yamamuro , Kei E. I. Tanaka , Satoshi Okuzumi

Dust grains influence many aspects of star formation, including planet formation, opacities for radiative transfer, chemistry, and the magnetic field via Ohmic, Hall, and ambipolar diffusion. The size distribution of the dust grains is the…

Solar and Stellar Astrophysics · Physics 2023-02-08 Pierre Marchand , Ugo Lebreuilly , Mordecai-Mark Mac Low , Vincent Guillet

The first step toward planet formation is grain growth from (sub-)micrometer to millimeter/centimeter sizes. Grain growth has been reported not only in Class II protoplanetary disks but also in Class 0/I protostellar envelopes. However,…

Earth and Planetary Astrophysics · Physics 2023-09-13 Ilseung Han , Woojin Kwon , Yusuke Aso , Jaehan Bae , Patrick Sheehan

We critically examine the best lines of evidence for grain growth in protoplanetary disks, based on modelling of observed spectral energy distributions and images of T Tauri and Herbig Ae stars. The data are consistent with millimeter-sized…

Astrophysics · Physics 2007-05-23 E. I. Chiang

We discovered a new growth mode of dust grains to km-sized bodies in protoplanetary disks that evolve by viscous accretion and magnetically driven disk winds (MDWs). We solved an approximate coagulation equation of dust grains with…

Earth and Planetary Astrophysics · Physics 2021-03-17 Tetsuo Taki , Koh Kuwabara , Hiroshi Kobayashi , Takeru K. Suzuki

Dust constitutes only about one percent of the mass of circumstellar disks, yet it is of crucial importance for the modeling of planet formation, disk chemistry, radiative transfer and observations. The initial growth of dust from…

Earth and Planetary Astrophysics · Physics 2011-07-19 T. Birnstiel

We calculate the evolution of a star-forming cloud core using a three-dimensional resistive magnetohydrodynamics simulation, treating dust grains as Lagrangian particles, to investigate the dust motion in the early star formation stage. We…

Solar and Stellar Astrophysics · Physics 2022-12-14 Shunta Koga , Masahiro N. Machida

Grain growth by the accretion of metals in interstellar clouds (called `grain growth') could be one of the dominant processes that determine the dust content in galaxies. The importance of grain size distribution for the grain growth is…

Cosmology and Nongalactic Astrophysics · Physics 2015-05-28 Hiroyuki Hirashita , Tzu-Ming Kuo

Recent observations suggest that the first stages of planet formation likely take place in the Class 0/I phase of Young Stellar Object evolution, when the star and the disk are still embedded in an infalling envelope. In this study we…

Earth and Planetary Astrophysics · Physics 2023-04-12 Wenrui Xu , Philip J. Armitage

We present the first results of the treatment of grain growth in our 3D, two-fluid (gas+dust) SPH code describing protoplanetary disks. We implement a scheme able to reproduce the variation of grain sizes caused by a variety of physical…

Astrophysics · Physics 2009-11-13 Guillaume Laibe , Jean-François Gonzalez , Laure Fouchet , Sarah T. Maddison

We present the first results of the treatment of grain growth in our 3D, two-fluid (gas+dust) SPH code describing protoplanetary disks. We implement a scheme able to reproduce the variation of grain sizes caused by a variety of physical…

Astrophysics · Physics 2007-09-20 Guillaume Laibe , Jean-François Gonzalez , Laure Fouchet , Sarah T. Maddison

We investigate dust dynamics and evolution during the formation of a protostellar accretion disk around intermediate mass stars via 2D numerical simulations. Using three different detailed dust models, compact spherical particles, fractal…

Astrophysics · Physics 2009-10-31 Gerhard Suttner , Harold W. Yorke

Aims. We numerically investigated dust enrichment and growth during the initial stages of protoplanetary disk formation. A particular objective was to determine the effects of various growth barriers, mimicked by imposing a series of upper…

Earth and Planetary Astrophysics · Physics 2025-07-02 E. I. Vorobyov , V. G. Elbakyan , A. Skliarevskii , V. Akimkin , I. Kulikov

Young stars are formed within dusty discs. The grains in the disc are originally of the same size as interstellar dust. Models predict that these grains will grow in size through coagulation. Observations of the silicate features at micron…

In a series of papers, we present a comprehensive analytic study of the global motion of growing dust grains in protoplanetary discs, addressing both the radial drift and the vertical settling of the particles. Here we study how the radial…

Earth and Planetary Astrophysics · Physics 2015-06-17 Guillaume Laibe , Jean-François Gonzalez , Sarah T. Maddison

The crucial initial step in planet formation is the agglomeration of micron-sized dust into macroscopic aggregates. This phase is likely to happen very early during the protostellar disc formation, which is characterised by active gas…

Earth and Planetary Astrophysics · Physics 2020-10-14 Vitaly Akimkin , Eduard Vorobyov , Yaroslav Pavlyuchenkov , Olga Stoyanovskaya
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