Achieving Better Than 1 Minute Accuracy in the Heliocentric and Barycentric Julian Dates

Eastman, Jason D.; Siverd, Robert J.; Gaudi, B. Scott

doi:10.1086/655938

Cited by 806 publications

(670 citation statements)

References 29 publications

(29 reference statements)

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“…Aperture sizes of 6.0, 8.0, and 6.0 pixels were selected for the J-, H-, and K s -band data to minimize the dispersion of the light curves with respect to the best-fit transit models. The time system of the light curves was converted from Julian Day (JD) to Barycentric JD (BJD) using the code from Eastman et al (2010). The resulting light curves are plotted in the top panel of Figure 3.…”

Section: K2 Photometrymentioning

confidence: 99%

THEK2-ESPRINT PROJECT III: A CLOSE-IN SUPER-EARTH AROUND A METAL-RICH MID-M DWARF

Hirano

Fukui

Mann

et al. 2016

ApJ

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We validate a R R 2.32 0.24 p =  Å planet on a close-in orbit (P=2.260455±0.000041 days) around K2-28 (EPIC206318379), a metal-rich M4-type dwarf in the Campaign 3 field of the K2 mission. Our follow-up observations included multi-band transit observations from the optical to the near-infrared, low-resolution spectroscopy, and high-resolution adaptive optics (AO) imaging. We perform a global fit to all of the observed transits using a Gaussian process-based method and show that the transit depths in all of the passbands adopted for the ground-based transit follow-ups (r z J H K , , , ,¢ ) are within ∼2σ of the K2 value. Based on a model of the background stellar population and the absence of nearby sources in our AO imaging, we estimate the probability that a background eclipsing binary could cause a false positive to be <2×10 −5 . We also show that K2-28 cannot have a physically associated companion of stellar type later than M4, based on the measurement of almost identical transit depths in multiple passbands. There is a low probability for an M4 dwarf companion ( 0.072 0.04 0.02 » -+), but even if this were the case, the size of K2-28b falls within the planetary regime. K2-28b has the same radius (within 1σ) and experiences irradiation from its host star similar to the well-studied GJ1214b. Given the relative brightness of K2-28 in the near-infrared (m 14.85 Kep = mag and m H =11.03 mag) and relatively deep transit (0.6%-0.7%), a comparison between the atmospheric properties of these two planets with future observations would be especially interesting.

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Section: K2 Photometrymentioning

confidence: 99%

THEK2-ESPRINT PROJECT III: A CLOSE-IN SUPER-EARTH AROUND A METAL-RICH MID-M DWARF

Hirano

Fukui

Mann

et al. 2016

ApJ

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“…We incorporated the uncertainties associated with each of these system parameters by drawing their values from Gaussian distributions with standard deviations as the literature uncertainty values. We convert the exposure time stamps to BJD-TDB using the UTC2BJD tool (Eastman et al 2010), such that they match with the literature T0 values. The best fit values and uncertainties are explored via a Markov chain Monte Carlo (MCMC) analysis, using the emcee ensemble sampler (Foreman-Mackey et al 2013).…”

Section: Eclipse Light Curve Fittingmentioning

confidence: 99%

K s-band secondary eclipses of WASP-19b and WASP-43b with the Anglo-Australian Telescope★

Zhou

Bayliss

Kedziora-Chudczer

et al. 2014

Monthly Notices of the Royal Astronomical Society

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We report new K s band secondary eclipse observations for the hot-Jupiters WASP-19b and WASP-43b. Using the IRIS2 infrared camera on the Anglo-Australian Telescope (AAT), we measured significant secondary eclipses for both planets, with depths of 0.287 +0.020 −0.020 % and 0.181 +0.027 −0.027 % for WASP-19b and WASP-43b respectively. We compare the observations to atmosphere models from the VSTAR line-by-line radiative transfer code, and examine the effect of C/O abundance, top layer haze, and metallicities on the observed spectra. We performed a series of signal injection and recovery exercises on the observed light curves to explore the detection thresholds of the AAT+IRIS2 facility. We find that the optimal photometric precision is achieved for targets brighter than K mag = 9, for which eclipses as shallow as 0.05 % are detectable at > 5 σ significance.

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“…BJD − JD = ∆ R + ∆ C , where ∆ R is the Rømer delay (i.e. the time correction when the barycentre of the Solar system is taken as the reference point) and ∆ C is the clock correction from Coordinated Universal Time (UTC) to Barycentric Dynamical Time (TDB 1 ), varies over time and can be as much as about 9 minutes to date (Eastman et al 2010). Nevertheless, the systematic time errors that are induced when using JD instead of BJD are negligible comparing to a typical period of contact binaries, let alone detached binaries, even though such errors will induce spurious ETVs corresponding to the Earth's heliocentric motion which would smear out any signal associated with the LTTE in an EB.…”

Section: Phase Dispersion Minimization Methodsmentioning

confidence: 99%

The first eclipsing binary catalogue from the MOA-II data base

Rattenbury

Bond

et al. 2017

Monthly Notices of the Royal Astronomical Society

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We present the first catalogue of eclipsing binaries in two MOA fields towards the Galactic bulge, in which over 8,000 candidates, mostly contact and semi-detached binaries of periods < 1 d, were identified. In this paper, the light curves of a small number of interesting candidates including eccentric binaries, binaries with noteworthy phase modulations and eclipsing RS CVn type stars are shown as examples. In addition, we identified three triple object candidates by detecting the light-travel-time effect in their eclipse time variation curves.

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Achieving Better Than 1 Minute Accuracy in the Heliocentric and Barycentric Julian Dates

Cited by 806 publications

References 29 publications

THEK2-ESPRINT PROJECT III: A CLOSE-IN SUPER-EARTH AROUND A METAL-RICH MID-M DWARF

THEK2-ESPRINT PROJECT III: A CLOSE-IN SUPER-EARTH AROUND A METAL-RICH MID-M DWARF

K s-band secondary eclipses of WASP-19b and WASP-43b with the Anglo-Australian Telescope★

The first eclipsing binary catalogue from the MOA-II data base

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