Alien life could thrive on big 'Hycean' exoplanets


A new study suggests, the search for alien life should broaden its horizons a bit. Alien hunters have to date focused largely on Earthlike planets a reasonable place to start, given that our rocky, water-covered world is the only one we know of that hosts life. But the universe teems with a huge diversity of planets, some of which may be habitable despite being decidedly un-Earthlike.


In the new study, researchers identify one such class of alien worlds Hycean planets, which are up to 2.5 times larger than Earth and feature huge oceans of liquid water beneath hydrogen-rich atmospheres. Hycean planets appear to be incredibly abundant throughout the Milky Way galaxy, and they could host microbial life similar to the extremophiles that thrive in some of Earth's harshest environments.


Lead author Nikku Madhusudhan, of the Institute of Astronomy at the University of Cambridge in England said, Hycean planets open a whole new avenue in our search for life elsewhere.


Hycean worlds are similar in size to rocky super-Earths and gassy mini-Neptunes, two of the most common types of an exoplanet in the galaxy. But the Hyceans are distinct, with densities between those of super-Earths and mini-Neptunes, according to the new study, which was published online Wednesday (Aug. 25) in The Astrophysical Journal.


The Hyceans are also a diverse lot. Some orbit so close to their stars that they're tidally locked, with one scorching-hot dayside and one eternally dark nightside. And some orbit very far away, receiving very little stellar radiation. But life could exist even on such extreme Hyceans, the researchers stress for example, in the nightside waters of tidally-locked worlds.


Study co-author Anjali Piette, also from Cambridge's Institute of Astronomy said, it's exciting that habitable conditions could exist on planets so different from Earth.


In addition, Hyceans appear to be good places to search for potential biosignature gases such as oxygen and methane.


The researchers wrote in the new study, we find that the larger radii and higher temperatures admissible for Hycean planets make these biomarkers more readily detectable in Hycean atmospheres compared to those of rocky exoplanets.


And a Hycean life hunt could start soon. Madhusudhan and his colleagues identified a number of Hycean worlds whose atmospheres could be scrutinized by next-generation observatories such as NASA's $9.8 billion James Webb Space Telescope, which is scheduled to launch later this year. Those potential targets orbit small, dim red dwarf stars between 35 and 150 light-years from Earth.


Madhusudhan said, a biosignature detection would transform our understanding of life in the universe. We need to be open about where we expect to find life and what form that life could take, as nature continues to surprise us in often unimaginable ways.

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