On The Origin of The High-Perihelion Scattered Disk: The Role of The Kozai Mechanism And Mean Motion Resonances

@article{Gomes2005OnTO,
  title={On The Origin of The High-Perihelion Scattered Disk: The Role of The Kozai Mechanism And Mean Motion Resonances},
  author={R. Gomes and T. Gallardo and J. A. Fern{\'a}ndez and A. Brunini},
  journal={Celestial Mechanics and Dynamical Astronomy},
  year={2005},
  volume={91},
  pages={109-129}
}
  • R. Gomes, T. Gallardo, +1 author A. Brunini
  • Published 2005
  • Physics
  • Celestial Mechanics and Dynamical Astronomy
  • AbstractWe study the transfer process from the scattered disk (SD) to the high-perihelion scattered disk (HPSD) (defined as the population with perihelion distances q > 40 AU and semimajor axes a>50 AU) by means of two different models. One model (Model 1) assumes that SD objects (SDOs) were formed closer to the Sun and driven outwards by resonant coupling with the accreting Neptune during the stage of outward migration (Gomes 2003b, Earth, Moon, Planets 92, 29–42.). The other model (Model 2… CONTINUE READING
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