Quipu is the largest structure in the universe<\/h3>\n
A team of astronomers have mapped the near universe, from about 425 million to 800 million light-years (130 to 250 megaparsecs), and discovered the largest-known structure in the universe. They\u2019ve named this massive collection of galaxies Quipu. And they said it stretches some 1.3 billion light-years (400+ megaparsecs) long. It contains the mass of some 200 quadrillion stars.<\/p>\n
The journal Astronomy and Astrophysics<\/em> have accepted the researchers\u2019 paper for publication. A pre-print is available online at arXiv and dated February 3, 2025. Hans B\u00f6hringer of the Max Planck Institute led the study.<\/p>\n Hold up. What about the Hercules Corona-Borealis Great Wall? Isn\u2019t it supposed to be 10 billion light-years long? Yes \u2026 but, unfortunately, its existence has never been confirmed.<\/p>\n Quipu is not the only superstructure the team studied. They also found four others that are impressive in their own right. The researchers estimate these superstructures contain about 45% of the galaxy clusters, 30% of the galaxies and 25% of the matter in the universe. The structures are not only affecting their immediate environment but also distorting and modifying the wavelengths passing through from deeper space. The paper said these large structures affect how we view the universe: <\/p>\n For a precise determination of cosmological parameters we need to understand the effects of the local large-scale structure of the universe on the measurements. They include modifications of the cosmic microwave background, distortions of sky images by large-scale gravitational lensing, and the influence of large-scale streaming motions on measurements of the Hubble constant. \u2026 Therefore the mapping of the large-scale matter distribution is an important task for observational cosmology.<\/p>\n<\/blockquote>\n For example, we learn about the Big Bang \u2013 the spark that set our universe in motion \u2013 through the cosmic microwave background it left behind. Astronomers have mapped this relic radiation for fluctuations to see how fast the universe has grown. But superstructures such as Quipu likely warp our view.<\/p>\n The researchers looked at the near universe but beyond the closest region that has been extensively studied, such as in the 2MASS redshift survey. The 2MASS survey looked at galaxies within about 370 million light-years (115 megaparsecs). Instead, the new study looked at the next step outward in our universe. And they did so by looking at galaxy clusters that are bright in X-rays. <\/p>\n Their survey, called the CLASSIX cluster survey, covered about 86% of the sky. The missing region is what astronomers call the Zone of Avoidance, but it\u2019s what most of us call the Milky Way. When scientists are trying to peer out into the deep universe, the stars and dust of our own galaxy block the view. The dark strips in the maps we see here are where the Milky Way prevented researchers from seeing the galaxies behind it.<\/p>\n There are 185 galaxy clusters within these five superstructures. Quipu alone has 65 galaxy clusters. It basically forms a long filament with small side filaments. <\/p>\n The galaxies in the superstructure are too far away and therefore too faint for us to see with our eyes in the night sky. But the superstructure shows up readily on the star charts from the survey. In fact, the paper said: <\/p>\n Quipu is actually a prominent structure readily noticeable by eye in a sky map of clusters in the target redshift range, without the help of a detection method. It can also easily be recognized in the map of the galaxy distribution.<\/p>\n<\/blockquote>\n Quipu is also close to another supercluster in the Southern Hemisphere \u2013 the Vela supercluster \u2013 that astronomers have known about since 2016. Are Quipu and the Vela supercluster linked? At the moment, the astronomers found no signs of it, despite their closeness. But they said it\u2019s possible new detections in the tricky Zone of Avoidance might one day link them.<\/p>\n If you search for Quipu on the internet, you\u2019re likely to come up with information on recording devices from South America from a few thousand years ago. The paper said the superstructure was: <\/p>\n \u2026 named after the bundles of cords with knots used by the Incas to store administrative and calendrical information, which resemble this superstructure in their shape. The name was also chosen because most the cluster redshifts have been obtained at the European Southern Observatory in Chile where such records were found.<\/p>\n<\/blockquote>\n The superstructure Quipu won\u2019t last forever. The researchers said: <\/p>\n In the future cosmic evolution, these superstructures are bound to break up into several collapsing units. They are thus transient configurations. But at present they are special physical entities with characteristic properties and special cosmic environments deserving special attention.<\/p>\n<\/blockquote>\n Bottom line: Scientists have discovered the largest-known structure in the universe, which they\u2019ve named Quipu. Find out more about its size, influence on our universe and fate.<\/p>\n Source: Unveiling the largest structures in the nearby Universe: Discovery of the Quipu superstructure<\/p>\n <\/div>\nQuipu is 1 of 5 superstructures<\/h3>\n
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Studying the near universe<\/h3>\n
![\"Globe-shaped](\"https:\/\/earthsky.org\/upl\/2025\/02\/density-map-of-the-2MASS-galaxy-distribution-in-the-near-universe-Bohringer-et-al-Astronomy-and-Astrophysics-2025-e1738957891162.png\")
More on this superstructure<\/h3>\n
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How Quipu got its name<\/h3>\n
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![\"A](\"https:\/\/earthsky.org\/upl\/2025\/02\/Inca_Quipu.jpg\")
What will happen to Quipu?<\/h3>\n
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