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Collision parameters governing water delivery and water loss in early planetary systems

Published online by Cambridge University Press:  06 January 2014

Thomas I. Maindl  and
Rudolf Dvorak
Thomas I. Maindl
Affiliation:
Universitätssternwarte, University of Vienna A-1180, Vienna, Austria email: thomas.maindl@univie.ac.at
Rudolf Dvorak
Affiliation:
Universitätssternwarte, University of Vienna A-1180, Vienna, Austria email: thomas.maindl@univie.ac.at
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Abstract

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We investigate the distribution of encounter velocities and impact angles describing collisions in the habitable zone of the early planetary system. Here we present a catalogue of collision characteristics for a particular mass ratio of the colliding bodies and seven different planetesimal masses ranging from a tenth of Ceres' mass to 10 times the mass of the Moon. We show that there are virtually no collisions with impact speeds lower than the surface escape velocity and a similar velocity-impact angle distribution for different planetesimal masses if velocities are normalized using the escape velocity. An additional perturbing Jupiter-like object distorts the collision velocity and impact picture in the sense that grazing impacts at higher velocities are promoted if the perturber's orbit is close to the habitable zone whereas a more distant perturber has more the effect of a mere widening of the velocity dispersion.

Keywords

solar system: formationcelestial mechanicsmethods: n-body simulations
Type
Contributed Papers
Information
Proceedings of the International Astronomical Union , Volume 8 , Symposium S299: Exploring the Formation and Evolution of Planetary Systems , June 2013 , pp. 370 - 373
Copyright
Copyright © International Astronomical Union 2013 

References

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