Modeling the Radial Velocities of HD 240210 with the Genetic Algorithms

Modeling the Radial Velocities of HD 240210 with the Genetic Algorithms

More than 450 extrasolar planets are known to date. To detect these intriguing objects, many photometric and radial velocity (RV) surveys are in progress. We developed the Keplerian FITting (KFIT) code, to model published and available RV data. KFIT is based on a hybrid, quasi-global optimization te...

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Veröffentlicht in:arXiv.org 2010-06
Hauptverfasser: Rozenkiewicz, A, Gozdziewski, K, Migaszewski, C
Format: Artikel
Sprache:eng
Schlagworte:
Extrasolar planets
Genetic algorithms
Global optimization
Object recognition
Optimization techniques
Orbital resonances (celestial mechanics)
Photometry
Planet detection
Planetary evolution
Planetary systems
Radial velocity
Stellar evolution
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Zusammenfassung:More than 450 extrasolar planets are known to date. To detect these intriguing objects, many photometric and radial velocity (RV) surveys are in progress. We developed the Keplerian FITting (KFIT) code, to model published and available RV data. KFIT is based on a hybrid, quasi-global optimization technique relying on the Genetic Algorithms and simplex algorithm. Here, we re-analyse the RV data of evolved K3III star HD 240210. We confirm three equally good solutions which might be interpreted as signals of 2-planet systems. Remarkably, one of these best-fits describes the long-term stable two-planet system, involved in the 2:1~mean motion resonance (MMR). It may be the first instance of this strong MMR in a multi-planet system hosted by evolved star, as the 2:1 MMR configurations are already found around a few solar dwarfs.
ISSN:2331-8422