Astronomers have confirmed that 3I/ATLAS is the most important interstellar comet on report, with its stable heart measuring as much as 2.6 kilometers in diameter, in response to detailed new observations from the Hubble Area Telescope. That is about the identical measurement as Madrid’s Retiro Park, or the walkway from Huge Ben to Tower Bridge (alongside South Financial institution) in London. And that is simply the width!
It’s the third confirmed interstellar customer to our photo voltaic system, a lot bigger in measurement than earlier big objects like ‘Oumuamua and 2I/Borisov, and gives recent new data about distant planetary methods.
Third interstellar object found
Comet 3I/ATLAS, often known as C/2025 N1 (ATLAS), was first found on July 1 by the NASA-funded ATLAS survey telescope in Chile. Its hyperbolic orbit and excessive velocity verify its interstellar origin, making it the third object detected after 1I/’Oumuamua (2017) and 2I/Borisov (2019). In early observations, the comet regarded like an everyday comet lined in gasoline and dirt, moderately than an inert asteroid-like object.
Hubble telescope measures measurement of big atomic nucleus
A global staff of astronomers used NASA’s Hubble Area Telescope to take clearer photos of 3I/ATLAS and estimate the scale of its core. By separating the brilliant core from the encompassing coma, a glowing cloud of gasoline and dirt, the researchers decided that the stable core had a diameter of about 2.6 km. Impartial methods supported this measurement, together with evaluation of non-gravitational forces as a consequence of outgassing that have an effect on the comet’s path.
Subsequently, 3I/ATLAS is way bigger and probably extra harmful than every other main star. ‘Oumuamua’s core is estimated to be lower than 1 km, and 2I/Borisov’s core is about 1 km. Hubble’s precision imposes tight constraints on measurement, however even in these high-resolution views, the nucleus stays partially obscured by the encompassing brilliant coma.
Higher mass and distinctive chemical composition revealed
Spectroscopic knowledge revealed a composition wealthy in water ice, carbon dioxide, and methane. This composition could be very totally different from that of typical comets, and it has an uncommon emission sample. The comet’s outgassing and reddish coma counsel natural compounds affected by extended publicity to cosmic radiation. These options increase questions concerning the formation surroundings in distant star methods, maybe billions of years in the past.
NASA observations proceed with TESS and different missions
NASA’s Transiting Exoplanet Survey Satellite tv for pc (TESS) additionally tracked 3I/ATLAS from January 15 to January 22 (presumably in 2026 or throughout its transit), capturing modifications in brightness and exercise. A number of NASA property, together with the James Webb Area Telescope, will proceed to observe the comet till it leaves the photo voltaic system on an unrestricted path.
Origins and implications for future interstellar discoveries
The distinctive measurement, mass, and composition of 3I/ATLAS pose a problem to fashions of interstellar object formation. So astronomers started investigating whether or not such big comets are widespread in different star methods or if they’re uncommon guests to our photo voltaic system.
Future analysis outcomes are anticipated to disclose whether or not this can be a beforehand undiscovered pure comet, or whether or not it’s being guided to a nook of the universe by a novel steerage system.
3I/ATLAS will return to interstellar area, abandoning worthwhile clues concerning the composition of planets past our photo voltaic system.