Moreover, it alters the radiation of the cosmic microwave background, a relic of the Big Bang. The existence of Quipu confirms the predictions of the ΛCDM model, which describes the evolution of the ...

Quipu interacts with the cosmic microwave background (CMB), the afterglow from the Big Bang (just like this most powerful explosion since the Big Bang), in a manner that could change the way ...

In another shot to our cosmic ego, scientists have discovered a new superstructure, named Quipu, that stretches 1.39 billion light-years across and contains the equivalent mass of 200 quadrillion ...

Then there's Quipu, the newly discovered cosmic structure that contains 70 linked superclusters and spans 1.4 billion lightyears across the darkness of space. The structure was discovered by a ...

"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 ...

They’ve named this cosmic giant Quipu, after the ancient Incan system of knotted cords used for counting and record-keeping. Just like its namesake, Quipu is made up of a long, central filament with ...

Because Quipu is so massive, it alters the way we see the cosmos. It influences some of the most fundamental aspects of astronomy, including: The Cosmic Microwave Background (CMB) The CMB is ...

Many cosmic filaments appear straightforward, but Quipu’s segmented design opens questions about the variety of ways matter can assemble on colossal scales. Experts emphasize that the cosmic microwave ...

Astronomers have claimed to discover the largest structure in the universe. Named ‘Quipu’, after an Incan measuring system, the structure spans across 1.3 billion light years, about 13,000 times the ...