Search for Planets in Hot Jupiter Systems with Multi-Sector TESS Photometry. III. A Study of Ten Systems Enhanced with New Ground-Based Photometry

The loneliness of hot Jupiters supports the high-eccentricity migration as a primary path leading to the formation of systems with those planets stripped of any close-in planetary companions. Here we present the null results of searches for low-mass planets close to hot Jupiters in 10 planetary syst...

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Veröffentlicht in:	Acta astronomica 2023-01, Vol.73 (1), p.57
Hauptverfasser:	Maciejewski, G, Fernández, M, Sota, A, Amado, P J, Ohlert, J, Bischoff, R, Stenglein, W, Mugrauer, M, Michel, K-U, Golonka, J, Solsona, A Blanco, Lapeña, E, Freire, J Molins, Curieses, A de los Ríos, Sicilia, J A Temprano
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Schlagworte:	Extrasolar planets Gas giant planets Hypothetical planets Light curve Photometry Planet detection Planetary systems Transit Variable stars
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creator	Maciejewski, G Fernández, M Sota, A Amado, P J Ohlert, J Bischoff, R Stenglein, W Mugrauer, M Michel, K-U Golonka, J Solsona, A Blanco Lapeña, E Freire, J Molins Curieses, A de los Ríos Sicilia, J A Temprano
description	The loneliness of hot Jupiters supports the high-eccentricity migration as a primary path leading to the formation of systems with those planets stripped of any close-in planetary companions. Here we present the null results of searches for low-mass planets close to hot Jupiters in 10 planetary systems: HAT-P-4, HAT-P-10, HAT-P-12, HAT-P-17, HAT-P-19, HAT-P-32, HAT-P-44, Qatar-6, TrES-4, and WASP-48. We employed multi-sector time-series photometry from the Transiting Exoplanet Survey Satellite enhanced with new ground-based transit light curves to determine the sizes of hypothetical planets that might still avoid being detected. We redetermined transit parameters for the known hot Jupiters using a homogeneous approach. We refuted transit timing variations for HAT-P-12 b, claimed recently in the literature. The transit timing data permitted us to place tighter constraints on third bodies in HAT-P-19 and HAT-P-32 systems detected in Doppler measurements. We also study four multi-periodic pulsating variable stars in the field around HAT-P-17.
doi_str_mv	10.32023/0001-5237/73.1.4
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subjects	Extrasolar planets Gas giant planets Hypothetical planets Light curve Photometry Planet detection Planetary systems Transit Variable stars
title	Search for Planets in Hot Jupiter Systems with Multi-Sector TESS Photometry. III. A Study of Ten Systems Enhanced with New Ground-Based Photometry
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