This supernova is completely spherical enhancing us

The universe is a messy place full of explosive stars, materials that fall into black holes, and rogue planets roam on their own. All of this chaos makes astronomers suspicious when they hint a perfection in the universe, such as a bubble of the remaining materials of the death of a star that appears to be completely identical.

Astronomers have recently discovered the remains of the sporadic wine with a noticeable circular consistency, which makes it stand out as one of the most ideal spherical things discovered in the universe. Perfection is not always a bad problem, but it raises some questions related to how the object is this way.

the discoveryIntroduction to Publications of the Astronomical Society in Australia It has been provided on the Arxiv website on the Preprint website in the image collected by the Arquarian Square Kilometer Array Pathfinder. The researchers behind the paper identified as the Supernova galaxy residue – an expanded cloud of debris that are formed in the wake of the death of the explosive star.

The object, located in the Milky Way jar, is called Teleios, the Greek word for perfection. Although it is almost completely symmetrical, Teleios is not very bright. It has one of the lowest levels of the surface brightness registered between the well -known Supernova residue. Astronomers who are monitored remotely are not sure of a distance to the ground, and they can be about 7175 or 25114 light years. This is a big difference in the distance, and the uncertainty affects our understanding of the time when the object was there.

The different distance involves different sizes for Teleios, since the objects look smaller in the farthest. At a distance closer to the ground, the Supernova residue will be about 46 light years old. If it is much further, it will be a much larger cloud-after 157 light years. Based on the variation of size, scientists suggest that this special cloud of expanding materials has either existed for less than 1000 years of its smaller size, or the supernova residues much older than 10,000 years ago and grew to their larger size.

Another strange thing about Teleios is that it appears only in the lengths of the radio, although the modeling of the object indicates that it should have X -ray emissions. Scientists behind the study are trying to explain the absence of X -ray emissions through the Teleios suggestion is a type of type Ia Supernova, which occurs in a dual stars system in which one of the stars is a white dwarf. In this case, the zombie star is often left behind with Supernova residue. There is a close star that fits the profile, but this means that Teleios is much smaller, and it extends over 11 light years in the Milky Way. However, none of Teleios distance measurements are compatible with this small size.

The researchers wrote in the paper: “We consider many different scenarios to explain the unusual Teleios characteristics, all of which face their challenges.” “Although we see the type IA scenario most likely, we note that there is no direct evidence available to confirm any scenario permanently.”

Researchers suggest that sensitive and high -precision notes are needed for this object in order to detect its ideal shape and unusual attributes.