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Water on exoplanet cloud tops could be found with hi-tech instrumentation
by Staff Writers
Warwick UK (SPX) Sep 23, 2020

Lead author Dr Siddharth Gandhi of the Department of Physics at the University of Warwick said: "We have been investigating whether ground-based high resolution spectroscopy can help us to constrain the altitude in the atmosphere where we have clouds, and constrain chemical abundances despite those clouds.

University of Warwick astronomers have shown that water vapour can potentially be detected in the atmospheres of exoplanets by peering literally over the tops of their impenetrable clouds.

By applying the technique to models based upon known exoplanets with clouds the team has demonstrated in principle that high resolution spectroscopy can be used to examine the atmospheres of exoplanets that were previously too difficult to characterise due to clouds that are too dense for sufficient light to pass through.

Their technique is described in a paper for the Monthly Notices of the Royal Astronomical Society and provides another method for detecting the presence of water vapour in an exoplanet's atmosphere - as well as other chemical species that could be used in future to assess potential signs of life. The research received funding from the Science and Technologies Facilities Council (STFC), part of UK Research and Innovation (UKRI).

Astronomers use light from a planet's host star to learn what its atmosphere is composed of. As the planet passes in front of the star they observe the transmission of the stellar light as it skims through the upper atmosphere and alters its spectrum. They can then analyse this spectrum to look at wavelengths that have spectral signatures for specific chemicals. These chemicals, such as water vapour, methane and ammonia, are only present in trace quantities in these hydrogen and helium rich planets.

However, dense clouds can block that light from passing through the atmosphere, leaving astronomers with a featureless spectrum. High resolution spectroscopy is a relatively recent technique that is being used in ground-based observatories to observe exoplanets in greater detail, and the Warwick researchers wanted to explore whether this technology could be used to detect the trace chemicals present in the thin atmospheric layer right above those clouds.

While astronomers have been able to characterise the atmospheres of many larger and hotter exoplanets that orbit close to their stars, termed 'hot Jupiters', smaller exoplanets are now being discovered at cooler temperatures (less than 700C). Many of these planets, which are the size of Neptune or smaller, have shown much thicker cloud.

They modelled two previously known 'warm Neptunes' and simulated how the light from their star would be detected by a high resolution spectrograph. GJ3470b is a cloudy planet that astronomers had previously been able to characterise, while GJ436b has been harder to characterise due to a much thicker cloud layer. Both simulations demonstrated that at high resolution you can detect chemicals such as water vapour, ammonia and methane easily with just a few nights of observations with a ground-based telescope.

The technique works differently from the method recently used to detect phosphine on Venus, but could potentially be used to search for any type of molecule in the clouds of a planet outside of our solar system, including phosphine.

Lead author Dr Siddharth Gandhi of the Department of Physics at the University of Warwick said: "We have been investigating whether ground-based high resolution spectroscopy can help us to constrain the altitude in the atmosphere where we have clouds, and constrain chemical abundances despite those clouds.

"What we are seeing is that a lot of these planets have got water vapour on them, and we're starting to see other chemicals as well, but the clouds are preventing us from seeing these molecules clearly. We need a way to detect these species and high resolution spectroscopy is a potential way of doing that, even if there is a cloudy atmosphere.

"The chemical abundances can tell you quite a lot about how the planet may have formed because it leaves its chemical fingerprint on the molecules in the atmosphere. Because these are gas giants, detecting the molecules at the top of the atmosphere also offers a window into the internal structure as the gases mix with the deeper layers."

The majority of observations of exoplanets have been done using space-based telescopes such as Hubble or Spitzer, and their resolution is too low to detect sufficient signal from above the clouds. High resolution spectroscopy's advantage is that it is capable of probing a wider range of altitudes.

Dr Gandhi adds: "Quite a lot of these cooler planets are far too cloudy to get any meaningful constraints with the current generation of space telescopes. Presumably as we find more and more planets there's going to be more cloudy planets, so it's becoming really important to detect what's on them. Ground based high resolution spectroscopy as well as the next generation of space telescopes will be able to detect these trace species on cloudy planets, offering exciting potential for biosignatures in the future."

Research Report: 'Seeing above the Clouds with High Resolution Spectroscopy'


Related Links
University Of Warwick
Lands Beyond Beyond - extra solar planets - news and science
Life Beyond Earth


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EXO WORLDS
Astronomers discover an Earth-sized "pi planet" with a 3.14-day orbit
Boston MA (SPX) Sep 22, 2020
In a delightful alignment of astronomy and mathematics, scientists at MIT and elsewhere have discovered a "pi Earth" - an Earth-sized planet that zips around its star every 3.14 days, in an orbit reminiscent of the universal mathematics constant. The researchers discovered signals of the planet in data taken in 2017 by the NASA Kepler Space Telescope's K2 mission. By zeroing in on the system earlier this year with SPECULOOS, a network of ground-based telescopes, the team confirmed that the signals ... read more

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