Growing the gas-giant planets by the gradual accumulation of pebbles

被引:0
|
作者
Harold F. Levison
Katherine A. Kretke
Martin J. Duncan
机构
[1] Southwest Research Institute and NASA Solar System Exploration Research Virtual Institute,Department of Physics
[2] Engineering Physics,undefined
[3] and Astronomy,undefined
[4] Queen’s University,undefined
来源
Nature | 2015年 / 524卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Gas-giant planets are widely thought to form from solid ‘cores’ of roughly ten Earth masses; simulations now show that such cores can be produced from ‘pebbles’ (centimetre-to-metre-sized objects) provided that the pebbles form sufficiently slowly, leading to the formation of one to four gas giants in agreement with the observed structure of the Solar System.
引用
收藏
页码:322 / 324
页数:2
相关论文
共 50 条
  • [1] Growing the gas-giant planets by the gradual accumulation of pebbles
    Levison, Harold F.
    Kretke, Katherine A.
    Duncan, Martin J.
    NATURE, 2015, 524 (7565) : 322 - +
  • [2] Deep jets on gas-giant planets
    Lian, Yuan
    Showman, Adam P.
    ICARUS, 2008, 194 (02) : 597 - 615
  • [3] Separating gas-giant and ice-giant planets by halting pebble accretion
    Lambrechts, M.
    Johansen, A.
    Morbidelli, A.
    ASTRONOMY & ASTROPHYSICS, 2014, 572
  • [4] Gas capturing growth of gas-giant planets via subdisk accretion in protoplanetary disk
    Tanigawa, T
    Watanabe, SI
    SCIENTIFIC FRONTIERS IN RESEARCH ON EXTRASOLAR PLANETS, 2003, 294 : 303 - 306
  • [5] Growing the terrestrial planets from the gradual accumulation of submeter-sized objects
    Levison, Harold F.
    Kretke, Katherine A.
    Walsh, Kevin J.
    Bottke, William F.
    PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2015, 112 (46) : 14180 - 14185
  • [6] Composition of giant planets: The roles of pebbles and planetesimals
    Danti, C.
    Bitsch, B.
    Mah, J.
    ASTRONOMY & ASTROPHYSICS, 2023, 679
  • [7] Toward Direct Imaging of Low-mass Gas-Giant Planets with the James Webb Space Telescope
    Schlieder, J. E.
    Beichman, C. A.
    Meyer, M. R.
    Greene, T.
    YOUNG STARS & PLANETS NEAR THE SUN, 2016, 10 (314): : 288 - 289
  • [8] Rapid Formation of Gas-giant Planets via Collisional Coagulation from Dust Grains to Planetary Cores
    Kobayashi, Hiroshi
    Tanaka, Hidekazu
    ASTROPHYSICAL JOURNAL, 2021, 922 (01):
  • [9] An ultrahot gas-giant exoplanet with a stratosphere
    Thomas M. Evans
    David K. Sing
    Tiffany Kataria
    Jayesh Goyal
    Nikolay Nikolov
    Hannah R. Wakeford
    Drake Deming
    Mark S. Marley
    David S. Amundsen
    Gilda E. Ballester
    Joanna K. Barstow
    Lotfi Ben-Jaffel
    Vincent Bourrier
    Lars A. Buchhave
    Ofer Cohen
    David Ehrenreich
    Antonio García Muñoz
    Gregory W. Henry
    Heather Knutson
    Panayotis Lavvas
    Alain Lecavelier des Etangs
    Nikole K. Lewis
    Mercedes López-Morales
    Avi M. Mandell
    Jorge Sanz-Forcada
    Pascal Tremblin
    Roxana Lupu
    Nature, 2017, 548 : 58 - 61
  • [10] An ultrahot gas-giant exoplanet with a stratosphere
    Evans, Thomas M.
    Sing, David K.
    Kataria, Tiffany
    Oyal, Jayesh G.
    Nikolov, Nikolay
    Wakeford, Hannah R.
    Deming, Drake
    Marley, Mark S.
    Amundsen, David S.
    Ballester, Gilda E.
    Barstow, Joanna K.
    Ben-Jaffel, Lotfi
    Bourrier, Vincent
    Buchhave, Lars A.
    Cohen, Ofer
    Ehrenreich, David
    Munoz, Antonio Garcia
    Henry, Gregory W.
    Knutson, Heather
    Lavvas, Panayotis
    des Etangs, Alain Lecavelier
    Lewis, Nikole K.
    Lopez-Morales, Mercedes
    Mandell, Avi M.
    Sanz-Forcada, Jorge
    Tremblin, Pascal
    Lupu, Roxana
    NATURE, 2017, 548 (7665) : 58 - +
12345