| Literature DB >> 30344345 |
Eder Martioli1, Knicole D Colón2,3,4, Daniel Angerhausen5,6, Keivan G Stassun7,8, Joseph E Rodriguez7,9, George Zhou9, B Scott Gaudi10, Joshua Pepper11, Thomas G Beatty12,13, Ramarao Tata14, David J James15, Jason D Eastman9, Paul Anthony Wilson16, Daniel Bayliss17, Daniel J Stevens7.
Abstract
We present near infrared high-precision photometry for eight transiting hot Jupiters observed during their predicted secondary eclipses. Our observations were carried out using the staring mode of the WIRCam instrument on the Canada-France-Hawaii Telescope (CFHT). We present the observing strategies and data reduction methods which delivered time series photometry with statistical photometric precision as low as 0.11%. We performed a Bayesian analysis to model the eclipse parameters and systematics simultaneously. The measured planet-to-star flux ratios allowed us to constrain the thermal emission from the day side of these hot Jupiters, as we derived the planet brightness temperatures. Our results combined with previously observed eclipses reveal an excess in the brightness temperatures relative to the blackbody prediction for the equilibrium temperatures of the planets for a wide range of heat redistribution factors. We find a trend that this excess appears to be larger for planets with lower equilibrium temperatures. This may imply some additional sources of radiation, such as reflected light from the host star and/or thermal emission from residual internal heat from the formation of the planet.Keywords: facility: CFHT; infrared: planetary systems; instrument: WIRCam; instrumentation: photometers; stars: planetary systems
Year: 2017 PMID: 30344345 PMCID: PMC6190681 DOI: 10.1093/mnras/stx3009
Source DB: PubMed Journal: Mon Not R Astron Soc ISSN: 0035-8711 Impact factor: 5.287