The Origin of Short-Period Comets (original) (raw)
NASA/ADS
;
Abstract
The authors present the key results of an extensive series of numerical simulations of the evolution of comet orbits due to the gravitational perturbations of the giant planets. The results show that the inclination distribution of comets with large perihelion (q ≤ 30 AU) that evolve to observable comets (i.e., those with q ≤ 1.5 AU) is approximately preserved. Thus, the short-period (SP) comets, which are mostly in prograde, low-inclination orbits, cannot arise from gravitational scattering of any spherical population of comets (such as the Oort cloud). However, the distribution of orbital elements of SP comets arising from a population of low-inclination Neptune-crossing comets is in excellent agreement with observations. It is concluded that the SP comets arise from a cometary belt in the outer solar system.
Publication:
The Astrophysical Journal
Pub Date:
May 1988
DOI:
Bibcode:
Keywords:
- Comets;
- Gas Giant Planets;
- Orbital Elements;
- Astronomical Models;
- Gravitational Effects;
- COMETS;
- SHORT-PERIOD COMETS;
- ORIGIN;
- NUMERICAL METHODS;
- SIMULATIONS;
- EVOLUTION;
- ORBITS;
- GRAVITY EFFECTS;
- PERTURBATIONS;
- DISTRIBUTION;
- SCATTERING;
- SOURCE;
- ORBITAL ELEMENTS;
- INCLINATION;
- NEPTUNE-CROSSERS;
- PROCEDURE;
- OORT CLOUD;
- POSITION (LOCATION);
- NEPTUNE;
- ANALYSIS;
- Astrophysics; Comets;
- COMETS;
- SOLAR SYSTEM: GENERAL