By Passant Rabie Published May 20, 2025 | Comments (0) | The galactic supernova remnant shown here with its perfect symmetry. Filipović et al./arXiv The universe is a chaotic place filled with exploding stars, material falling into black holes, and rogue planets wandering off on their own. All that chaos makes astronomers suspicious when they glimpse a hint of perfection in the cosmos, like a bubble of material left over from the death of a star that appears to be in perfectly symmetrical shape. Astronomers recently discovered the remnant of a galactic supernova with a remarkable circular symmetry, making it stand out as one of the most perfectly spherical objects detected in the universe. Perfection is not always a bad problem to have, but it does prompt certain questions regarding how the object came to be this way. The discovery, submitted to the Publications of the Astronomical Society of Australia and made available on the preprint website arXiv, was spotted in images collected by the Australian Square Kilometer Array Pathfinder. The researchers behind the paper identified the object as a galactic supernova remnant—an expanding cloud of debris that forms in the aftermath of the exploding death of a star. The object, located in the Milky Way galaxy, has been dubbed Teleios, the Greek word for perfect. Although it is almost perfectly symmetrical, Teleios is not very bright. It has one of the lowest recorded surface brightness levels among known supernova remnants. Astronomers observing Teleios are also uncertain about its distance to Earth, estimating that it could either be around 7,175 or 25,114 light-years away. That’s a huge difference in distance, and the uncertainty is affecting our understanding of how long the object has been there. The two different distances imply different sizes for Teleios, since objects appear smaller the farther away they are. At its closer distance to Earth, the supernova remnant would be about 46 light-years wide. If it were much farther away, it would be a much larger cloud—around 157 light-years across. Based on its size variation, the scientists suggest that this particular cloud of expanding material has either been around for less than 1,000 years at its smaller size, or a much older supernova remnant that formed more than 10,000 years ago and grew to its larger size. Another odd thing about Teleios is that it only appears in radio wavelengths, even though modeling of the object suggests it should have X-ray emissions. The scientists behind the study try to explain the lack of X-ray emissions by suggesting Teleios is a Type Ia supernova, which takes place in a binary star system in which one of the stars is a white dwarf. In that case, a zombie star is often left behind along with the supernova remnant. There is a nearby star that fits the profile, but it would mean that Teleios is much smaller, spanning across a mere 11 light-years in the Milky Way. However, none of the measurements of Teleios’ distance correspond to this small size. “We consider several different scenarios to explain Teleios’s unusual properties, all of which have their challenges,” the researchers wrote in the paper. “While we deem the Type Ia scenario the most likely, we note that no direct evidence is available to definitively confirm any scenario.” The researchers suggest that sensitive and high-resolution observations of this object are needed in order to uncover its mysteriously perfect shape and unusual qualities. Daily Newsletter You May Also Like By Isaac Schultz Published May 11, 2025 By Isaac Schultz Published April 21, 2025 By Isaac Schultz Published April 13, 2025 By Passant Rabie Published March 28, 2025 By Passant Rabie Published March 27, 2025 By Isaac Schultz Published March 24, 2025