2 days ago
Mysterious interstellar object enters solar system; the largest, fastest, and only the third ever recorded
For only the third time in recorded history, astronomers have confirmed the arrival of an object from beyond our
solar system
. Now officially designated
3I/ATLAS
(also known as C/2025 N1), the comet-like body is racing toward the
Sun
at more than 60 kilometers per second, and is believed to have originated from interstellar space.
The Minor Planet Center (MPC), operated by the International Astronomical Union, officially classified the object as interstellar on July 2, 2025, following trajectory analysis and early observational data.
Its motion, unbound by the Sun's gravity, confirms that it originated outside the solar system and is just passing through.
by Taboola
by Taboola
Sponsored Links
Sponsored Links
Promoted Links
Promoted Links
You May Like
Play War Thunder now for free
War Thunder
Play Now
Undo
Also Read:
They survived ice ages and hunted mammoths; so why did the Neanderthals suddenly disappear? Now a physicist blames something in the sky
What is the new interstellar object 3I/ATLAS?
The object was first spotted on July 1, 2025, by
NASA
's ATLAS survey in Hawaii, under the temporary name A11pl3Z.
Live Events
3I/ATLAS has been classified as interstellar, meaning it is not orbiting the Sun and will eventually leave our solar system altogether.
The only two previously confirmed
interstellar objects
of this category are '
Oumuamua
(2017) and Comet 2I/Borisov (2019).
Astronomers believe the object is a comet made mostly of ice, as indicated by a faint coma and tail unlike 'Oumuamua, which sparked debate due to its unusual shape and lack of comet-like activity.
Early estimates place its size between 10 and 20 kilometers in diameter, making it potentially the largest
interstellar object
ever detected.
Is there any threat to Earth?
According to Richard Moissl, head of planetary defense at the European Space Agency, the object is zooming through the solar system at over 60 km/s (37 miles/s). It is expected to reach perihelion (its closest approach to the Sun) in October 2025, at around 2 AU (twice the Earth-Sun distance).
The object will pass just inside Mars's orbit without posing any threat to Earth. According to physicist and VLBI radio astronomer Marshall Eubanks, it could get close enough to be detectable by the Mars Reconnaissance Orbiter.
By April 2026, it is expected to reach 90 km/s relative to Earth, potentially setting a record for the fastest such flyby ever recorded.
Observations
Amateur and professional astronomers have independently confirmed images of 3I/ATLAS. Astrophotographer Filipp Romanov captured the object using a remote telescope in Chile.
At the same time, Sam Deen and the Deep Random Survey provided supporting data by locating the object in archival imagery dating back to late June.
Currently visible only from the Southern Hemisphere, the object has a visual magnitude of around 18.8, highly dim to unaided observation.
However, advanced amateur telescopes may be able to capture it as it brightens to magnitude 16 by August.
Astronomer Eddie Irizarry has released star charts showing the comet's expected path through the constellation Sagittarius and past star clusters like M3.
Though sending a mission to intercept 3I/ATLAS is not feasible due to its high speed and late detection, studying its composition and behavior can offer rare insights into the formation of other star systems.
If precursors of life, such as amino acids, are ever found on such objects, it could significantly strengthen the case for
extraterrestrial life
.
As Mark Norris, an astronomer at the University of Central Lancashire, said to AFP, 'These visitors offer scientists a rare chance to study something from beyond our own star system, a direct sample from another corner of the galaxy.'
The object will remain observable with powerful telescopes into next year, gradually fading as it exits the solar system. Some models suggest that thousands of such objects may drift through at any given time, most too small or dim to detect.
