Statistical Analysis of Hubble/WFC3 Transit Spectroscopy of Extrasolar Planets

Fu, Guangwei; Deming, Drake; Knutson, Heather A.; Madhusudhan, Nikku; Mandell, Avi M.; Fraine, Jonathan

doi:10.3847/2041-8213/aa8e40

Cited by 113 publications

(117 citation statements)

References 41 publications

(69 reference statements)

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“…One of the most surprising findings from the large ensemble of exoplanetary transmission spectra observed is the consistently low spectral amplitudes of H2O absorption features. In the tens of transmission spectra observed to date, for exoplanets over a wide range of masses and temperatures from cool super-Earths to ultra hot Jupiters, every single one has a H2O feature that is below two scale heights (86,255,58). This is in stark contrast to expectations, for which a saturated spectral feature in a transmission spectrum is expected to have an amplitude of ∼5-10 scale heights.…”

Section: Clouds/hazesmentioning

confidence: 66%

Exoplanetary Atmospheres: Key Insights, Challenges, and Prospects

Madhusudhan

2019

Annu. Rev. Astron. Astrophys.

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292

228

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Exoplanetary science is on the verge of an unprecedented revolution. The thousands of exoplanets discovered over the past decade have most recently been supplemented by discoveries of potentially habitable planets around nearby low-mass stars. Currently, the field is rapidly progressing towards detailed spectroscopic observations to characterise the atmospheres of these planets. While various surveys from space and ground are expected to detect numerous more exoplanets orbiting nearby stars, the imminent launch of JWST along with large groundbased facilities are expected to revolutionise exoplanetary spectroscopy. Such observations, combined with detailed theoretical models and inverse methods, provide valuable insights into a wide range of physical processes and chemical compositions in exoplanetary atmospheres. Depending on the planetary properties, the knowledge of atmospheric compositions can also place important constraints on planetary formation and migration mechanisms, geophysical processes and, ultimately, biosignatures. In the present review, we will discuss the modern and future landscape of this frontier area of exoplanetary atmospheres. We will start with a brief review of the area, emphasising the key insights gained from different observational methods and theoretical studies. This is followed by an in-depth discussion of the state-of-the-art, challenges, and future prospects in three forefront branches of the area. 2 N. Madhusudhan 6 N. Madhusudhan 28 N. Madhusudhan 42 N. Madhusudhan

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Section: Clouds/hazesmentioning

confidence: 66%

Exoplanetary Atmospheres: Key Insights, Challenges, and Prospects

Madhusudhan

2019

Annu. Rev. Astron. Astrophys.

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292

228

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“…Oberg et al 2011;Lambrechts et al 2014;Venturini et al 2016;Pudritz et al absorption signal in a majority of the close-in gas giant planets observed to date (e.g. Sing et al 2016;Fu et al 2017;Tsiaras et al 2018;Wakeford et al 2019). This problem is even more acute for the current sample of Neptune-sized planets, whose relatively small radii, high surface gravities, and low temperatures all combine to reduce the expected amplitude of atmospheric absorption as compared to their better-studied Jovian counterparts (e.g.…”

Section: Introductionmentioning

confidence: 99%

A Hubble PanCET Study of HAT-P-11b: A Cloudy Neptune with a Low Atmospheric Metallicity

Chachan

Knutson

Gao

et al. 2019

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We present the first comprehensive look at the 0.35−5 µm transmission spectrum of the warm (∼ 800 K) Neptune HAT-P-11b derived from thirteen individual transits observed using the Hubble and Spitzer Space Telescopes. Along with the previously published molecular absorption feature in the 1.1−1.7 µm bandpass, we detect a distinct absorption feature at 1.15 µm and a weak feature at 0.95 µm, indicating the presence of water and/or methane with a combined significance of 4.4 σ. We find that this planet's nearly flat optical transmission spectrum and attenuated near-infrared molecular absorption features are best-matched by models incorporating a high-altitude cloud layer. Atmospheric retrievals using the combined 0.35−1.7 µm HST transmission spectrum yield strong constraints on atmospheric cloudtop pressure and metallicity, but we are unable to match the relatively shallow Spitzer transit depths without under-predicting the strength of the near-infrared molecular absorption bands. HAT-P-11b's HST transmission spectrum is well-matched by predictions from our microphysical cloud models. Both forward models and retrievals indicate that HAT-P-11b most likely has a relatively low atmospheric metallicity (< 4.6 Z and < 86 Z at the 2σ and 3σ levels respectively), in contrast to the expected trend based on the solar system planets. Our work also demonstrates that the wide wavelength coverage provided by the addition of the HST STIS data is critical for making these inferences.

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“…Given the impact aerosols have on atmospheric characterization, it would be useful to know a priori whether a planet is likely to be clear or cloudy. For this reason, there have been a number of recent studies looking for arXiv:1908.02358v2 [astro-ph.EP] 17 Sep 2019 correlations between planetary parameters and the presence of clouds and hazes (Heng 2016;Sing et al 2016;Stevenson 2016;Crossfield & Kreidberg 2017;Fu et al 2017). While these studies have been conducted over relatively small sample sizes, there is growing evidence that hotter planets are more likely than cooler planets to be cloud free (e.g., WASP-121b, Evans et al 2018;KELT-9b, Hoeijmakers et al 2018.…”

Section: Introductionmentioning

confidence: 99%

LRG-BEASTS: Transmission Spectroscopy and Retrieval Analysis of the Highly Inflated Saturn-mass Planet WASP-39b

Kirk

López‐Morales

Wheatley

et al. 2019

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We present a ground-based transmission spectrum and comprehensive retrieval analysis of the highly inflated Saturn-mass planet WASP-39b. We obtained low-resolution spectra (R ≈ 400) of a transit of WASP-39b using the ACAM instrument on the 4.2 m William Herschel Telescope as part of the LRG-BEASTS survey. Our transmission spectrum is in good agreement with previous ground-and spacebased observations of WASP-39b, and covers a wavelength range of 4000-9000Å. Previous analyses of this exoplanet have retrieved water abundances that span more than four orders of magnitude, which in turn lead to conclusions of a subsolar or highly supersolar atmospheric metallicity. In order to determine the cause of the large discrepancies in the literature regarding WASP-39b's atmospheric metallicity, we performed retrieval analyses of all literature data sets. Our retrievals, which assume equilibrium chemistry, recovered highly supersolar metallicities for all data sets. When running our retrievals on a combined spectrum, spanning 0.3-5 µm, we recovered an atmospheric metallicity of 282 +65 −58 × solar. We find that stellar activity has a negligible effect on the derived abundances and instead conclude that different assumptions made during retrieval analyses lead to the reported water abundances that differ by orders of magnitude. This in turn has significant consequences for the conclusions we draw. This is the fourth planet to be observed as part of the LRG-BEASTS survey, which is demonstrating that 4 m class telescopes can obtain low-resolution transmission spectra with precisions of around one atmospheric scale height.

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Statistical Analysis of Hubble/WFC3 Transit Spectroscopy of Extrasolar Planets

Cited by 113 publications

References 41 publications

Exoplanetary Atmospheres: Key Insights, Challenges, and Prospects

Exoplanetary Atmospheres: Key Insights, Challenges, and Prospects

A Hubble PanCET Study of HAT-P-11b: A Cloudy Neptune with a Low Atmospheric Metallicity

LRG-BEASTS: Transmission Spectroscopy and Retrieval Analysis of the Highly Inflated Saturn-mass Planet WASP-39b

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