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"ASPIRE aims to understand how to embed the emergence of the earliest massive black holes into our current story of cosmic structure formation," he said. "The last two decades of cosmology research have given us a robust understanding of how the cosmic web forms and evolves," said team member Joseph Hennawi of the University of California, Santa Barbara. The ASPIRE team hopes the picture will shed more light on the cosmic web, but it is also very interested in how early quasars were formed in the universe's infancy. The team believes that eventually the galaxies will be pulled together into a cluster, much like the nearby Coma galaxy cluster. It goes through ten galaxies that appear as tiny red dots on the picture, meaning their light comes from the earliest recesses of the universe.Ī quasar, a luminous supermassive black hole, is thought to be anchoring the filament, researchers said. While the filament itself is invisible, it's possible to see how it brings galaxies together. It is less relevant to end users at this point in time, but will underpin a lot of exciting features in the future, such as a proper flow debugger, distributed node-red runtimes and integrated flow testing. In these clumps, dark matter and regular matter become very dense, creating the perfect conditions for the birth of stars and galaxies.īetween these clumps and filaments are "very low-density regions of the universe where there are very few galaxies and less matter," reported Guardian quoting Niall Jeffrey, a cosmologist at University College London. This is part of the pluggable message routing work that has been in our roadmap for a long time now. Over the past 20 years, research has uncovered the universe is built on a sort of scaffolding, a series of filaments and clumps invisible to the naked eye.
"I expected to find something, but I didn't expect such a long, distinctly thin structure," Xiaohui added.
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