
Detecting habitable exoplanets is not easy; scientists can’t just send a probe to distant stars using current spacefaring technologies. For instance, the National Aeronautics and Space Administration’s (NASA) Juno probe reaches speeds of up to 165,000 miles per hour. At those speeds, Juno would take about 17,157 years to reach Proxima Centauri b, the nearest exoplanet with a potentially habitable atmosphere.
Instead, scientists have to pour through data gathered from telescopes and sensors here on Earth and in orbit to learn more about these exoplanets.
For their study, the researchers combed through existing exoplanet catalogs in search of distant worlds known to have hydrogen, oxygen, dinitrogen and carbon dioxide in their atmospheres. The researchers estimated how fast those four “atmospheric species” escape into space using the “kinetic theory of gases” (how gases move about the atmosphere).
The team found 17 exoplanets in one catalog that met their habitability criteria and another 28 exoplanets on the wider exoplanet list. These worlds, according to the researchers, can potentially retain gases essential to life in their atmospheres and may be able to maintain stable liquid water.
“We conclude that, based on our current knowledge of the detected exoplanets, 45 of them are good candidates for habitability studies,” wrote the researchers.
The researchers recommend revisiting the current definition of a star's habitable zone, the orbital region around a star where planets could have stable atmospheres to support liquid water. The team explained that the capacity of a planet to host an Earth-like atmosphere should be added to the required conditions for habitability. (Related: Astronomers unveil first direct image of young exoplanet just 63 light-years away.)
“The discrimination of exoplanets based on the gas species that they can retain in their atmospheres will help determine the most probable candidates for potential habitability,” said the researchers.
In addition, the model used for the study, according to the team, can be used by active and planned exoplanet survey missions to detect gases of interest. For instance, scientists working on NASA’s Transiting Exoplanet Survey Satellite mission can use the model to look for the most promising exoplanets.
While none of the 24 exoplanets met all of the criteria, the researchers said that each exoplanet possessed at least one of those characteristics. With several active and planned exoplanet surveys, these two studies can help improve efforts to detect signs of alien life.
Cosmic.news has more on the search for life on other planets.
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