The term "hycean planet" was coined in 2021 by a team of exoplanet researchers at the
University of Cambridge, as a portmanteau of "hydrogen" and "ocean", used to describe planets that are thought to have large oceans and hydrogen-rich atmospheres. Hycean planets are thought to be common around
red dwarf stars, and are considered to be a promising place to search for life beyond Earth. The term was first used in a paper published in The Astrophysical Journal on August 31, 2021.[7]
Life on hycean planets would probably be entirely aquatic.[8] Their water-rich compositions imply that they can have larger sizes than comparable non-hycean planets, thus making detection of
biosignatures easier.[9] Hycean worlds could be investigated for
biosignatures by terrestrial telescopes and
space telescopes like the
James Webb Space Telescope (JWST).[4][10] In 2023, the JWST investigated
K2-18b and found evidence for both a hycean atmosphere and the presence of
dimethyl sulfide ─ a potential biosignature.
Properties
Hycean planets could be considerably larger than previous estimates for habitable planets, with radii reaching 2.6
R🜨 (2.3 R🜨) and masses of 10
ME (5 ME).[9] Moreover, the habitable zone of such planets could be considerably larger than that of Earth-like planets. The
planetary equilibrium temperature can reach 430 K (157 °C; 314 °F) for planets orbiting
late M-dwarfs.[11] However, mass and radius do not by themselves inform the composition of a planet, as bodies with identical mass and radius can have distinct compositions: A given planet may thus be either a hycean planet or a super-Earth.[12]
Such planets can have many distinct atmospheric compositions and internal structures.[9] Also possible are
tidally locked "dark hycean" planets (habitable only on the side of permanent night)[13] or "cold hycean" planets (with negligible irradiation, being kept warm by the
greenhouse effect).[11] Dark hycean worlds can form when the atmosphere does not effectively transport heat from the permanent day side to the permanent night side,[14] thus the night side has temperate temperatures while the day side is too hot for life.[15] Cold hycean planets may exist even in the absence of stars, e.g.
rogue planets.[15]
Although the presence of water may help them be
habitable planets, their habitability may be limited by a possible
runaway greenhouse effect. Hydrogen reacts differently to starlight's wavelengths than do heavier gases like nitrogen and oxygen. If the planet orbits a
sun-like star at one
Astronomical unit (AU), the temperature would be so high that the oceans would boil and water would become vapor. Current calculations locate the habitable zone where water would remain liquid at 1.6 AU, if the atmospheric pressure is similar to Earth's, or at 3.85 AU if it is the more likely tenfold to twentyfold pressure. All current hycean planet candidates are located within the area where oceans would boil, and are thus unlikely to have actual oceans of liquid water.[3] Another limiting factor is that
X-ray and
UV radiation from the star (especially
active stars) can destroy the water molecules.[13]
Dark hycean planets thought to be common around red dwarf stars.[15] Red dwarf stars are the most common type of star in the
Milky Way galaxy.[16]
They are considered to be a promising place to search for life beyond Earth. Hycean planets have the ingredients that is necessary for life, including liquid water, energy, and
organic molecules.[8]
Their atmospheres may have less
methane and
ammonia than comparable non-hycean
Neptune-like planets, if they have water oceans.[6]
They might have a much higher
free energy availability for their ecosystems than Earth.[17]
Hycean planets may be capable of supporting extraterrestrial life, despite their properties differing drastically from Earth's. Astronomers plan to use telescopes like the
James Webb Space Telescope to search for hycean planets and to learn more about their potential for habitability.[18]
Candidates
K2-18b
One such candidate planet is
K2-18b, which orbits a faint star with a period of about 33 days. This candidate planet could have liquid water, containing a considerable high amount of hydrogen gas in its atmosphere, and is far enough from its star, such that it resides within its star's
habitable zone. Such candidate planets can be studied for
biomarkers.[19][20]
In 2023, the
James Webb Space Telescope detected
carbon dioxide and
methane in the atmosphere of K2-18b, but it did not detect large amounts of
ammonia. This supports the hypothesis that K2-18b could indeed have a water ocean. The same observations also suggest that K2-18b's atmosphere might contain
dimethyl sulfide, a compound associated with life on Earth, although this has yet to be confirmed.[21] Another possibility is that K2-18b is a
lava world with a hydrogen atmosphere.[22]
Other candidates
K2-3b, a potential Dark hycean planet[12] but may be too hot.[23]