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On fitting planetary systems in counter-revolving configurations

In Gayon & Bois (2008) and Gayon etal (2009), (i) we studied the theoretical feasibility and efficiency of retrograde mean motion resonances (i.e. two planets are both in orbital resonance and in counter-revolving configuration), (ii) we showed that retrograde resonances can generate interesting...

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Published in:	arXiv.org 2009-08
Main Authors:	Gayon-Markt, Julie, Bois, Eric
Format:	Article
Language:	English
Subjects:	Configurations Dynamic stability Orbital resonances (celestial mechanics) Planet detection Planetary systems Radial velocity
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description	In Gayon & Bois (2008) and Gayon etal (2009), (i) we studied the theoretical feasibility and efficiency of retrograde mean motion resonances (i.e. two planets are both in orbital resonance and in counter-revolving configuration), (ii) we showed that retrograde resonances can generate interesting mechanisms of stability, and (iii) we obtained a dynamical fit involving a counter-revolving configuration that is consistent with the observations of the HD73526 planetary system. In the present paper, we present and analyze data reductions assuming counter-revolving configurations for eight compact multi-planetary systems detected through the radial velocity method. In each case, we select the best fit leading to a dynamically stable solution. The resulting data reductions obtained in rms and chi values for counter-revolving configurations are of the same order, and sometimes slightly better, than for prograde configurations. In the end, these fits tend to show that, over the eight studied multi-planetary systems, six of them could be regulated by a mechanism involving a counter-revolving configuration.
doi_str_mv	10.48550/arxiv.0908.1292
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subjects	Configurations Dynamic stability Orbital resonances (celestial mechanics) Planet detection Planetary systems Radial velocity
title	On fitting planetary systems in counter-revolving configurations
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