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Authordc.contributor.authorJones, M. L. 
Authordc.contributor.authorJenkins, James Stewart 
Authordc.contributor.authorBrahm, R. 
Authordc.contributor.authorWittenmyer, R. A. 
Authordc.contributor.authorOlivares, E. F. 
Authordc.contributor.authorMelo, C. H. 
Authordc.contributor.authorRojo Rubke, Patricio 
Authordc.contributor.authorJordan, A. 
Authordc.contributor.authorDrass, H. 
Authordc.contributor.authorButler, R. 
Authordc.contributor.authorWang, L. 
Admission datedc.date.accessioned2016-11-23T21:53:19Z
Available datedc.date.available2016-11-23T21:53:19Z
Publication datedc.date.issued2016
Cita de ítemdc.identifier.citationA&A 590, A38 (2016)es_ES
Identifierdc.identifier.other10.1051/0004-6361/201628067
Identifierdc.identifier.urihttps://repositorio.uchile.cl/handle/2250/141416
Abstractdc.description.abstractContext. Exoplanet searches have revealed interesting correlations between the stellar properties and the occurrence rate of planets. In particular, different independent surveys have demonstrated that giant planets are preferentially found around metal-rich stars and that their fraction increases with the stellar mass. Aims. During the past six years we have conducted a radial velocity follow-up program of 166 giant stars to detect substellar companions and to characterize their orbital properties. Using this information, we aim to study the role of the stellar evolution in the orbital parameters of the companions and to unveil possible correlations between the stellar properties and the occurrence rate of giant planets. Methods. We took multi-epoch spectra using FEROS and CHIRON for all of our targets, from which we computed precision radial velocities and derived atmospheric and physical parameters. Additionally, velocities computed from UCLES spectra are presented here. By studying the periodic radial velocity signals, we detected the presence of several substellar companions. Results. We present four new planetary systems around the giant stars HIP 8541, HIP 74890, HIP 84056, and HIP 95124. Additionally, we study the correlation between the occurrence rate of giant planets with the stellar mass and metallicity of our targets. We find that giant planets are more frequent around metal-rich stars, reaching a peak in the detection of f = 16.7(-5.9)(+15.5)% around stars with [Fe/H] similar to 0.35 dex. Similarly, we observe a positive correlation of the planet occurrence rate with the stellar mass, between M-* similar to 1.0 and 2.1 M-circle dot , with a maximum of f = 13.0(-4.2)(+10.1)% at M-* = 2.1 M-circle dot. -4.2% at M-* = 2.1 M-circle dot. Conclusions. We conclude that giant planets are preferentially formed around metal-rich stars. In addition, we conclude that they are more efficiently formed around more massive stars, in the stellar mass range of similar to 1.0-2.1 M-circle dot. These observational results confirm previous findings for solar-type and post-MS hosting stars, and provide further support to the core-accretion formation modeles_ES
Patrocinadordc.description.sponsorshipFondecyt 3140607 1130857 1120299 3140326 3150314 FONDEF CA13I10203 Ministry of Economy, Development, and Tourism's Millennium Science Initiative IC120009 CATA-Basal PFB-06 MASes_ES
Lenguagedc.language.isoenes_ES
Publisherdc.publisherEDP Scienceses_ES
Sourcedc.sourceAstronomy & Astrophysicses_ES
Keywordsdc.subjectPlanetary systemses_ES
Keywordsdc.subjectTechniques: radial velocitieses_ES
Keywordsdc.subjectPlanets and satelliteses_ES
Keywordsdc.subjectDetectiones_ES
Títulodc.titleFour new planets around giant stars and the mass-metallicity correlation of planet-hosting starses_ES
Document typedc.typeArtículo de revista
Catalogueruchile.catalogadorapces_ES
Indexationuchile.indexArtículo de publicación ISIes_ES


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