Hubble Space Telescope transmission spectroscopy of the exoplanet HD 189733b: high-altitude atmospheric haze in the optical and near-ultraviolet with STIS

Sing, David K.; Pont, F.; Aigrain, S.; Charbonneau, David; Désert, Jean Michel; Gibson, Neale P.; Gilliland, R. L.; Hayek, Wolfgang; Henry, Gregory W.; Knutson, Heather A.; Étangs, A. Lecavelier des; Mazeh, T.; Shporer, Avi

doi:10.1111/j.1365-2966.2011.19142.x

Cited by 389 publications

(557 citation statements)

References 55 publications

(107 reference statements)

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“…Rayleigh scattering due to the presence of hazes and clouds in the upper atmosphere can also lead to enhanced flux ratio at the optical to NIR range of wavelengths, that seems to explain well the nearly-featureless transmission spectrum in this region for HD189733b (Sing et al 2011;Pont et al 2008). A recent measurement of albedo in the secondary eclipse spectrum of HD189733b (Evans et al 2013) with the STIS on the Hubble Telescope seems to support the haze hypothesis.…”

Section: The Atmosphere Of Wasp-19bmentioning

confidence: 66%

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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Section: The Atmosphere Of Wasp-19bmentioning

confidence: 66%

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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“…This is easily seen in Fig. 8 in which, using equations (4) and (5) from Sing et al (2011), we plot for the case of Qatar-2, the correction for unocculted spots for a total dimming of 1 per cent at a reference wavelength of 600 nm for different star-spot temperatures. Starspots are modelled with ATLAS9 stellar atmospheric models (Kurucz 1979) of different temperatures ranging from 4450 to 3700 K in 250 K intervals, and T eff = 4645 K for the stellar temperature.…”

Section: Light-curve Modellingmentioning

confidence: 79%

“…The effect can be big enough to measure using medium-size telescopes with multiband imagers, assuming they have a good spectral resolution. It is important to obtain the observations at multiple wavelengths simultaneously, to avoid variations in transit depth due to unseen star-spots rather than planetary radius variations, even if one should take into account that unocculted starspots may still cause wavelength dependence of the transit depth (Sing et al 2011). In order to investigate this effect, one should monitor the variability of the parent star for many years 2 or, assuming that stellar activity does not change suddenly, repeatedly measure the transit depth by observing several planetary-transit events a few days away from each other.…”

Section: Multiband Observations Of Planetary Transitsmentioning

confidence: 99%

Erratum: Physical properties, star-spot activity, orbital obliquity and transmission spectrum of the Qatar-2 planetary system from multicolour photometry

Mancini

Southworth

Ciceri

et al. 2016

Mon. Not. R. Astron. Soc.

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We present 17 high-precision light curves of five transits of the planet Qatar-2 b, obtained from four defocused 2 m-class telescopes. Three of the transits were observed simultaneously in the Sloan g r i z passbands using the seven-beam Gamma Ray Burst Optical and Near-Infrared Detector imager on the MPG/ESO 2.2-m telescope. A fourth was observed simultaneously in Gunn grz using the Centro Astronómico Hispano Alemán 2.2-m telescope with Bonn University Simultaneous Camera, and in r using the Cassini 1.52-m telescope. Every light curve shows small anomalies due to the passage of the planetary shadow over a cool spot on the surface of the host star. We fit the light curves with the PRISM+GEMC model to obtain the photometric parameters of the system and the position, size and contrast of each spot. We use these photometric parameters and published spectroscopic measurements to obtain the physical properties of the system to high precision, finding a larger radius and lower density for both star and planet than previously thought. By tracking the change in position of one star-spot between two transit observations, we measure the orbital obliquity of Qatar-2 b to be λ = 4.• 3 ± 4.• 5, strongly indicating an alignment of the stellar spin with the orbit of the planet. We calculate the rotation period and velocity of the cool host star to be 11.5 ± 0.2 d and 3.28 ± 0.04 km s −1 at a colatitude of 74 • . We assemble the planet's transmission spectrum over the 386-976 nm wavelength range and search for variations of the measured radius of Qatar-2 b as a function of wavelength. Our analysis highlights a possible H 2 /He Rayleigh scattering in the blue.

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“…Second, clouds are less likely to form in the atmospheres of extremely hot exoplanets compared to cooler objects (Madhusudhan & Redfield 2015), which is particularly relevant in the light of the numerous non-detections of spectral features in exoplanets (e.g. Pont et al 2008;Sing et al 2011; Knutson et al 2014; Kreidberg et al 2014). The combination of the high photometric precision possible for transit/occultation obser-vations and the high planetary temperature means that 55 Cnc e currently represents one of the most promising super-Earth for infrared spectroscopic observations of its atmosphere.…”

Section: Introductionmentioning

confidence: 99%

Variability in the super-Earth 55 Cnc e

Demory

Gillon

Madhusudhan

et al. 2015

Mon. Not. R. Astron. Soc.

152

146

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Considerable progress has been made in recent years in observations of atmospheric signatures of giant exoplanets, but processes in rocky exoplanets remain largely unknown due to major challenges in observing small planets. Numerous efforts to observe spectra of superEarths, exoplanets with masses of 1-10 Earth masses, have thus far revealed only featureless spectra. In this paper we report a 4-σ detection of variability in the dayside thermal emission from the transiting super-Earth 55 Cancri e. Dedicated space-based monitoring of the planet in the mid-infrared over eight eclipses revealed the thermal emission from its dayside atmosphere varying by a factor 3.7 between 2012 and 2013. The amplitude and trend of the variability are not explained by potential influence of star spots or by local thermal or compositional changes in the atmosphere over the short span of the observations. The possibility of large scale surface activity due to strong tidal interactions possibly similar to Io, or the presence of circumstellar/circumplanetary material appear plausible and motivate future long-term monitoring of the planet.

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Hubble Space Telescope transmission spectroscopy of the exoplanet HD 189733b: high-altitude atmospheric haze in the optical and near-ultraviolet with STIS

Cited by 389 publications

References 55 publications

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

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

Erratum: Physical properties, star-spot activity, orbital obliquity and transmission spectrum of the Qatar-2 planetary system from multicolour photometry

Variability in the super-Earth 55 Cnc e

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