The dynamical evolution of the Atens

Author(s)

Rudolf Dvorak

Abstract

In this investigation the orbits of 21 Atens (semimajor axes smaller than the Earth) are studied with the aid of numerical integrations over the time interval of one million years. The dynamical model was a 6-body Solar System, where the perturbations of Uranus and Neptune were ignored, and where Mercury's mass was added to the Sun's mass. Thus mean motion resonances, secular resonances and the Kozai resonance were fully taken into account. The evolution of the semimajor axes shows the typical step function like pattern which we know also from comets although some Atens have a very fuzzy development of the orbital elements, and some of them stay in a mean motion resonance for very long time. The evolution from Atens to Apollos (with semimajor axes larger than the Earth) and vice versa is also a phenomenon which we could observe. The main goal was the study of encounters of the Atens with the Earth and Venus. We found out that Venus encounters occur somewhat more often than Earth encounters (approximately one within the distance Earth - Moon every 40000 years with Venus, one every 50000 years with the Earth).

Organisation(s)

Department of Astrophysics

Journal

Celestial Mechanics and Dynamical Astronomy: an international journal of space dynamics

Volume

69

Pages

103-118

No. of pages

16

ISSN

0923-2958

Publication date

1997

Peer reviewed

Yes

Austrian Fields of Science 2012

103003 Astronomy

Portal url

https://ucrisportal.univie.ac.at/en/publications/3d5567e5-02ef-406b-8451-224aead70754