The Subaru Telescope observed the interstellar comet 3I/ATLAS on January 7, 2026 (UT), after it made its closest approach to the Sun. By observing colors in the coma around the comet, astronomers could estimate the ratio of carbon dioxide to water. This ratio is much lower than that inferred from earlier observations by space telescopes. These findings suggest that the chemistry of the coma is evolving over time and offers clues to the structure of comet 3I/ATLAS.
Comet 3I/ATLAS (C/2025 N1) has garnered much attention as a comet which originated outside of the Solar System. A research group led by Yoshiharu Shinnaka of the Koyama Space Science Institute, Kyoto Sangyo University, used the Subaru Telescope to observe comet 3I/ATLAS after perihelion, the cometʼs closest approach to the Sun. The team applied analytical methods and expertise accumulated through investigations of Solar System comets to the data.
From this analysis, the team was able to estimate the ratio of carbon dioxide (CO 2 ) to water (H 2 O) in the coma, the cloud of gas around the nucleus of the comet. Because the gas in the coma comes from the nucleus, the coma composition provides hints to the composition of the nucleus.
Thanks to its notoriety, 3I/ATLAS had already been observed by space telescopes prior to perihelion. The CO 2 /H 2 O ratio calculated from the Subaru Telescope data was lower than the ratio suggested by the space telescope data. This change is consistent with the idea that the composition of the nucleus interior differs from that of the exterior, and as 3I/ATLAS heated up during its pass by the Sun, gas started to escape from different parts of the nucleus.
Shinnaka comments, “With the full-scale operation of survey telescopes in the coming years, many more interstellar objects are expected to be discovered. By applying the observational and analytical techniques we have developed through studies of Solar System comets to interstellar objects, we can now directly compare comets hailing from both inside and outside the Solar System and explore differences in their composition and evolution. Through studies of such objects, we hope to gain a deeper understanding of how planetesimals and planets formed in a wide variety of stellar systems, including our own Solar System.”
The Astronomical Journal
Observational study
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A post-perihelion constraint on the CO2/H2O ratio of interstellar comet 3I/ATLAS from [O I] forbidden lines
22-Apr-2026
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