“The models were right”: astronomers find ‘missing’ matter Astronomers discover vast filament of ‘missing’ matter Open Image Konstantinos and colleagues characterised the filament by combining X-ray observations from XMM-Newton and Suzaku, and digging into optical data from several others The two X-ray telescopes were ideal partners
The models were right! Astronomers locate universes . . . Using the XMM-Newton telescope, astronomers have discovered a vast 23 million light-year-wide tendril connecting galactic clusters and containing much of the universe's missing matter
Astronomers just found the universes missing matter: Here . . . The 69 radio frequencies the team studied were located at distances ranging up to about 9 1 billion light-years from Earth – making the furthest one the most distant fast radio burst ever recorded
Astronomers Finally Find the Universe’s Missing Matter with . . . In other words, astronomers have found the address of the universe’s long-lost matter—and it’s right there in the void Illuminating the Cosmic Fog To reach this conclusion, Connor and his team analyzed 60 fast radio bursts collected from galaxies ranging from 12 million to over 9 billion light-years away
The models were right: Astronomers find missing matter . . . Astronomers have discovered a huge filament of hot gas bridging four galaxy clusters At 10 times as massive as our galaxy, the thread could contain some of the universe's 'missing' matter
Astronomers Locate Universes Missing Matter - NDTV. com Scientists identify missing ordinary matter as thin gas between galaxies Ordinary matter comprises about 15% of all matter, with half previously unaccounted for Fast radio bursts (FRBs) helped