Latest In


Water Existence On Terrestrial Exoplanets - Use Of Machine Learning To Assess Its Existence

The footprints of water existence on terrestrial exoplanets have been discovered. Several exoplanets revolve in the habitable zone of their central star, in which liquid water may be present on their surface.

Author:Suleman Shah
Reviewer:Han Ju
May 13, 2022116 Shares1.8K Views
The footprints of water existence on terrestrial exoplanetshave been discovered. Several exoplanets revolve in the habitable zone of their central star, in which liquid water may be present on their surface. Expeditions like the Transiting Exoplanet Survey Satellite and ground-based studies constantly expand our list of possibly habitable planets. Future telescopes, such as the James Webb Space Telescope, will study the atmospheres of exoplanets the size of Earth. According to planetary formation theories, water-rich planets are abundant, making planets with surface water appealing candidates for prospective telescope investigations.
Understanding a planet's habitable qualities necessitates a complete description of the exoplanet using time-intensive spectroscopic measurements of the planet's atmosphere and surface composition. However, even with future telescope ideas advocated by the latest Decadal study, such as HabEx or LUVOIR, spectroscopy of Earth-size exoplanet in the habitable zone would be time-consuming. As a result, rapid identification and prioritisation of targets are essential for a successful search. Several teams proposed photometry as a technique for such preliminary characterisation, testing it on Solar System objects and planetary models and investigating suitable filters for such report.
Machine learning approaches have demonstrated the ability to characterise extrasolar planets using photometry rapidly: For giant planets, investigate ways to describe atmosphere features like metallicity and cloud coverage using supervised machine learning for the Nancy Grace Roman Space Telescope's five broadband filters. The authors evaluate eight machine learning algorithms for characterising surface biota on Earth-like planets using photometric fluxes for conventional Johnson filters.

How We Find Water On Exoplanets

Do Exoplanets Have Water On Them?

According to the reports of NASA, Water vapour has been identified on a planet the size of Neptune, making it the smallest exoplanet known to hold water. HAT-P-11b is 120 light-years away in the constellation Cygnus and is on a five-day orbit around its star. This world is probably too hot for seas, but it does have water vapour and a pristine, cloudless sky.
Dang Pham of the University of Toronto in Canada and Lisa Kaltenegger of Cornell University in the United States investigated the capacity of machine learning to identify water on the surface of a beautiful terrestrial planet in three forms: liquid ocean, water clouds, and snow. They did not select specific filters for any proposed telescope idea. Instead, They investigated the best option for finding water on the surface of an Earth-like exoplanet to influence open design options. Machine learning helps characterise reflected broadband photometry and other statistical methods on terrestrial exoplanets. Their XGBoost machine learning system works on a model grid of 53,130 Earth-size planets with a varied surface coverage of six significant surfaces.

Use Of Machine Learning

The researchers used machine learning and Markovchain Monte Carlo to investigate the possibility of identifying water on the surface of terrestrial exoplanets in its many forms (snow, clouds, and liquid water) using broadband photometry (MCMC). They employed broadband photometric flux to conduct binary classification on the presence of snow, clouds, and water on an exoplanet's surface using XGBoost, a well-known and adaptable machine learning technique. The XGBoost results show that machine learning methods can help classify the presence of snow, clouds, and water on Earth-size exoplanets based on photometric filter data. The results indicate promise for using machine learning on photometric data to identify water on the surface of terrestrial exoplanets (Fig. 3a,b): the algorithm achieves high (> 90%) balanced accuracy for snow and clouds and up to 70% balanced accuracy for liquid water.


The results demonstrated that using machine learning to identify water on the surface of exoplanets using broadband-filter photometry gives a viable initial characterisation tool for water in various forms. This might help planned small, and big telescope expeditions prioritise sites for time-intensive follow-up observations at a lower observing time cost.
It's not the first time water vapour has been detected in an exoplanet's atmosphere. The Hubble Space Telescope discovered water vapour on the surface of a faraway planet known as K2-18b in 2019, which is in the "habitable zone" of its parent star, where circumstances are favourable for liquid water to exist on the planet's surface.
Jump to
Suleman Shah

Suleman Shah

Suleman Shah is a researcher and freelance writer. As a researcher, he has worked with MNS University of Agriculture, Multan (Pakistan) and Texas A & M University (USA). He regularly writes science articles and blogs for science news website and open access publishers OA Publishing London and Scientific Times. He loves to keep himself updated on scientific developments and convert these developments into everyday language to update the readers about the developments in the scientific era. His primary research focus is Plant sciences, and he contributed to this field by publishing his research in scientific journals and presenting his work at many Conferences. Shah graduated from the University of Agriculture Faisalabad (Pakistan) and started his professional carrier with Jaffer Agro Services and later with the Agriculture Department of the Government of Pakistan. His research interest compelled and attracted him to proceed with his carrier in Plant sciences research. So, he started his Ph.D. in Soil Science at MNS University of Agriculture Multan (Pakistan). Later, he started working as a visiting scholar with Texas A&M University (USA). Shah’s experience with big Open Excess publishers like Springers, Frontiers, MDPI, etc., testified to his belief in Open Access as a barrier-removing mechanism between researchers and the readers of their research. Shah believes that Open Access is revolutionizing the publication process and benefitting research in all fields.
Han Ju

Han Ju

Hello! I'm Han Ju, the heart behind World Wide Journals. My life is a unique tapestry woven from the threads of news, spirituality, and science, enriched by melodies from my guitar. Raised amidst tales of the ancient and the arcane, I developed a keen eye for the stories that truly matter. Through my work, I seek to bridge the seen with the unseen, marrying the rigor of science with the depth of spirituality. Each article at World Wide Journals is a piece of this ongoing quest, blending analysis with personal reflection. Whether exploring quantum frontiers or strumming chords under the stars, my aim is to inspire and provoke thought, inviting you into a world where every discovery is a note in the grand symphony of existence. Welcome aboard this journey of insight and exploration, where curiosity leads and music guides.
Latest Articles
Popular Articles