Potassium detection in the clear atmosphere of a hot-Jupiter

Sedaghati, E.; Boffin, H. M. J.; Jeřabková, Tereza; Muñoz, A. García; Grenfell, John Lee; Smette, A.; Ivanov, V. D.; Csizmadia, Sz.; Cabrera, J.; Kabáth, P.; Rocchetto, Marco; Rauer, H.

doi:10.1051/0004-6361/201629090

Cited by 53 publications

(72 citation statements)

References 49 publications

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“…One of the key features of Magellan/IMACS is its large field of view (FOV) for the f {2 camera (27 1ˆ2 7 1 ), which allows for observations of several comparison stars in order to correct for common time-series variations. This is in contrast with other instruments, such as VLT/FORS2 (Sedaghati et al 2015b(Sedaghati et al , 2016Nikolov et al 2016;Sedaghati et al 2017;Gibson et al 2017), or Gemini/GMOS (Huitson et al 2017;Stevenson et al 2014;Gibson et al 2013a,b), whose relatively smaller FOVs (" 7 1ˆ71 and 2 1ˆ21 , respectively) typically only allow the observations of a single comparison star. The availability of multiple comparison stars makes it easier to detect and confrim features in the data, including spotcrossing events, which are known to occur during WASP-19b transits (see, e.g., Tregloan-Reed et al 2013;Mancini et al 2013;Huitson et al 2013) and which could bias our measurements if not accounted for.…”

Section: Observations With Magellan/imacsmentioning

confidence: 94%

ACCESS: a featureless optical transmission spectrum for WASP-19b from Magellan/IMACS

Espinoza

Rackham

Jordán

et al. 2018

Monthly Notices of the Royal Astronomical Society

143

220

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The short period (0.94-day) transiting exoplanet WASP-19b is an exceptional target for transmission spectroscopy studies, due to its relatively large atmospheric scaleheight (" 500 km) and equilibrium temperature (" 2100 K). Here we report on six precise spectroscopic Magellan/IMACS observations, five of which target the full optical window from 0.45´0.9µm and one targeting the 0.4´0.55µm blue-optical range. Five of these datasets are consistent with a transmission spectrum without any significant spectral features, while one shows a significant slope as a function of wavelength, which we interpret as arising from photospheric heterogeneities in the star. Coupled with HST/WFC3 infrared observations, our optical/near-infrared measurements point to the presence of high altitude clouds in WASP-19b's atmosphere in agreement with previous studies. Using a semi-analytical retrieval approach, considering both planetary and stellar spectral features, we find a water abundance consistent with solar for WASP-19b and strong evidence for sub-solar abundances for optical absorbers such as TiO and Na; no strong optical slope is detected, which suggests that if hazes are present, they are much weaker than previously suggested. In addition, two spotcrossing events are observed in our datasets and analyzed, including one of the first unambiguously detected bright spot-crossing events on an exoplanet host star.

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Section: Observations With Magellan/imacsmentioning

confidence: 94%

ACCESS: a featureless optical transmission spectrum for WASP-19b from Magellan/IMACS

Espinoza

Rackham

Jordán

et al. 2018

Monthly Notices of the Royal Astronomical Society

143

220

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“…Following Sedaghati et al (2016), we divided the detrended WLC obtained in the polynomial detrending method by its best-fit model to produce a common-mode correction (CMC) residual. We then divided that residual through the binned light curves to remove wavelength independent variations.…”

Section: Common-mode Correctionmentioning

confidence: 99%

ACCESS: A Visual to Near-infrared Spectrum of the Hot Jupiter WASP-43b with Evidence of H₂O, but No Evidence of Na or K

Weaver¹,

López‐Morales²,

Espinoza³

et al. 2019

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We present a new ground-based visual transmission spectrum of the hot Jupiter WASP-43b, obtained as part of the ACCESS Survey. The spectrum was derived from four transits observed between 2015 and 2018, with combined wavelength coverage between 5,300 Å-9,000 Å and an average photometric precision of 708 ppm in 230 Å bins. We perform an atmospheric retrieval of our transmission spectrum combined with literature HST/WFC3 observations to search for the presence of clouds/hazes as well as Na, K, Hα, and H 2 O planetary absorption and stellar spot contamination over a combined spectral range of 5,318 Å-16,420 Å. We do not detect a statistically significant presence of Na I or K I alkali lines, or Hα in the atmosphere of WASP-43b. We find that the observed transmission spectrum can be best explained by a combination of heterogeneities on the photosphere of the host star and a clear planetary atmosphere with H 2 O. This model yields a log-evidence of 8.26 ± 0.42 higher than a flat (featureless) spectrum. In particular, the observations marginally favor the presence of large, lowcontrast spots over the four ACCESS transit epochs with an average covering fraction f het = 0.27 +0.42 −0.16 , and temperature contrast ∆T = 132 K ± 132 K. Within the planet's atmosphere, we recover a log H 2 O volume mixing ratio of −2.78 +1.38 −1.47 , which is consistent with previous H 2 O abundance determinations for this planet.

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“…The source of the difference between them could be in RV component correction and in the different approach in measurement of the signal. We additionally calculate the absorption signal presented in the low-resolution transmission spectrum of WASP-17b by Sing et al (2016) as well as the upper limit on the non-detection of sodium in the transmission spectrum obtained by Sedaghati et al (2016). The results are also shown in Table 5.…”

Section: Comparison Of Absorption Signalsmentioning

confidence: 99%

The atmosphere of WASP-17b: Optical high-resolution transmission spectroscopy

Khalafinejad

Salz²,

Cubillos

et al. 2018

A&A

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High-resolution transmission spectroscopy is a method for understanding the chemical and physical properties of upper exoplanetary atmospheres. Due to large absorption cross-sections, resonance lines of atomic sodium D-lines (at 5889.95 Å and 5895.92 Å ) produce large transmission signals. Our aim is to unveil the physical properties of WASP-17b through an accurate measurement of the sodium absorption in the transmission spectrum. We analyze 37 high-resolution spectra observed during a single transit of WASP-17b with the MIKE instrument on the 6.5 meter Magellan Telescopes. We exclude stellar flaring activity during the observations by analyzing the temporal variations of H α and Ca II infra-red triplet (IRT) lines. Then we obtain the excess absorption light curves in wavelength bands of 0.75, 1, 1.5 and 3 Å around the center of each sodium line (i.e., the light curve approach). We model the effects of differential limb-darkening, and the changing planetary radial velocity on the light curves. We also analyze the sodium absorption directly in the transmission spectrum, which is obtained through dividing in-transit by out-of-transit spectra (i.e., the division approach). We then compare our measurements with a radiative transfer atmospheric model. Our analysis results in a tentative detection of exoplanetary sodium: we measure the width and amplitude of the exoplanetary sodium feature to be σ Na = (0.128 ± 0.078) Å and A Na = (1.7 ± 0.9)% in the excess light curve approach and σ Na = (0.850 ± 0.034) Å and A Na = (1.3 ± 0.6)% in the division approach. By comparing our measurements with a simple atmospheric model, we retrieve an atmospheric temperature of 1550 +170 −200 K and radius (at 0.1 bar) of 1.81 ± 0.02 R Jup for WASP-17b.

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Potassium detection in the clear atmosphere of a hot-Jupiter

Cited by 53 publications

References 49 publications

ACCESS: a featureless optical transmission spectrum for WASP-19b from Magellan/IMACS

ACCESS: a featureless optical transmission spectrum for WASP-19b from Magellan/IMACS

ACCESS: A Visual to Near-infrared Spectrum of the Hot Jupiter WASP-43b with Evidence of H₂O, but No Evidence of Na or K

The atmosphere of WASP-17b: Optical high-resolution transmission spectroscopy

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Potassium detection in the clear atmosphere of a hot-Jupiter

Cited by 53 publications

References 49 publications

ACCESS: a featureless optical transmission spectrum for WASP-19b from Magellan/IMACS

ACCESS: a featureless optical transmission spectrum for WASP-19b from Magellan/IMACS

ACCESS: A Visual to Near-infrared Spectrum of the Hot Jupiter WASP-43b with Evidence of H2O, but No Evidence of Na or K

The atmosphere of WASP-17b: Optical high-resolution transmission spectroscopy

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ACCESS: A Visual to Near-infrared Spectrum of the Hot Jupiter WASP-43b with Evidence of H₂O, but No Evidence of Na or K