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2 results

  • 9 - Types of Planetary System

  • from Part III - Planetary Systems and Life
  • Wallace Arthur, National University of Ireland, Galway
  • Book:
    The Biological Universe
    Published online:
    24 September 2020
    Print publication:
    24 September 2020, pp 137-149

  • Summary

    Here, I inspect the layout of our own solar system, and consider the extent to which other planetary systems are similar or different. Discoveries so far show that there are many possible layouts, and suggest that quasi-replicates of our system, with four inner rocky planets and four outer giant planets (gaseous or icy) are rare. Every system is different from every other one. This is a consequence of the chaotic process of collisions that leads from a protoplanetary disc to planets. Planets can be found orbiting large, medium, and small stars – with consequences for their maximum lifespans. Some planets are found in binary systems and even in systems with more than two stars. The nearest system to ours – Alpha Centauri – has three stars. This system has at least one planet, which orbits the smallest of the three stars. Planetary systems are also thought to typically contain smaller bodies than planets, as seen in the solar system – moons, minor planets, asteroids, and comets. Life is most likely to occur on planets, but life on moons is also possible. Finally, there are some lone planets that do not orbit a star at all. These are the least probable homes for life.

  • Pebble accretion onto planets in turbulent discs

  • Wilhelm Kley, Giovanni Picogna, Moritz H. R. Stoll
  • Journal:
    Proceedings of the International Astronomical Union / Volume 14 / Issue S345 / August 2018
    Published online by Cambridge University Press:
    13 January 2020, pp. 237-238
    Print publication:
    August 2018
    • Article
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  • Planets form in protoplanetary accretion discs around young protostars. These discs are driven by internal turbulence and the gas flow is not laminar but has stochastic components. For weakly ionised discs the turbulence can be generated purely hydrodynamically through the vertical shear instability (VSI). Embedded particles (dust/pebbles) experience a hydrodynamic drag and drift inward radially and are stirred up vertically by the turbulent motion of the disc. We study the accretion of particles onto a forming planet embedded in a VSI turbulent protoplanetary disc through a series of 3D hydrodynamical simulations for locally isothermal discs with embedded planets in the mass range from 5 to 100 Earth masses (M2295).