An artist's rendering of an icy object with an atmosphere with a star passing behind it. (Image credit: NAOJ) Share this article 0 Join the conversation Add us as a preferred source on Google Newsletter Subscribe to our newsletter Astronomers have detected an atmosphere that shouldn't exist on an icy object beyond the orbit of Pluto — sparking calls for follow-up observations.
Japanese astronomers found evidence for a thin atmosphere surrounding the body, which is located within the Kuiper Belt in the cold outer reaches of the solar system, according to a new study published May 4 in the journal Nature Astronomy.
The new observations challenge assumptions about which objects can sustain atmospheres in our solar system. However, these initial findings must be verified by outside researchers, with some experts keen to make follow-up observations with the James Webb Space Telescope (JWST) to confirm the atmosphere exists.
"This is an amazing development, but it sorely needs independent verification," Alan Stern, a planetary scientist and principal investigator for NASA's New Horizons mission to explore Pluto and the Kuiper Belt, who was not involved in the new study, told the Associated Press. "The implications are profound if verified."
Oddball ice ball
Researchers observed (612533) 2002 XV93 as it passed directly in front of a distant star in January 2024. The observations were made by a team of professional and amateur astronomers from three sites in Japan. Their data hinted at attenuation — or gradual loss of starlight caused by an atmosphere, according to the study.
"The observation data showed a smooth change of the star's brightness near the edge of the shadow, lasting about 1.5 seconds," study first author Ko Arimatsu, an associate professor and senior lecturer at the National Astronomical Observatory of Japan, told CNN. "This kind of smooth brightness change is naturally explained if the starlight was bent by a very thin atmosphere around the object."
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Watch On The team's observations suggested that the atmosphere is extremely thin, around 5 million to 10 million times thinner than Earth's atmosphere — too thin to support life. The potential atmosphere is also not permanent, with calculations suggesting that it will last less than 1,000 years unless it's restocked with gas.
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The discovery raises questions about how an atmosphere could have formed around this small, cold world. Previous JWST observations revealed that the object's surface doesn't appear to have any frozen gas that could have sublimated to produce an atmosphere. The researchers speculated that the atmosphere could be sustained by cryovolcanoes (ice volcanoes), with some unknown event forcing gases to the object's surface.
Another possibility is that the object was hit by another icy body, such as a comet, which then produced gases to form an atmosphere. Future observations, particularly by JWST — an infrared telescope designed to probe atmospheres around alien worlds — could help solve the mystery, according to Arimatsu.
"That is why future monitoring is so important," Arimatsu told the Associated Press. "If the atmosphere fades over the next several years, that would support an impact origin. If it persists, or varies seasonally, that would point more toward ongoing internal gas supply."
Article SourcesArimatsu, K., Yoshida, F., Hayamizu, T., Takita, S., Hosoi, K., Ootsubo, T., & Watanabe, J. (2026). Detection of an atmosphere on a trans-Neptunian object beyond Pluto. Nature Astronomy. https://doi.org/10.1038/s41550-026-02846-1
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Patrick PesterTrending News WriterPatrick Pester is the trending news writer at Live Science. His work has appeared on other science websites, such as BBC Science Focus and Scientific American. Patrick retrained as a journalist after spending his early career working in zoos and wildlife conservation. He was awarded the Master's Excellence Scholarship to study at Cardiff University where he completed a master's degree in international journalism. He also has a second master's degree in biodiversity, evolution and conservation in action from Middlesex University London. When he isn't writing news, Patrick investigates the sale of human remains.
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