Astronomers have finally found the missing case of the universe, the particles that were formed in the first few minutes after the Big Bang, and the thing we see around us, from the earth to the stars. Some sharp radio bursts (FRB), high -speed, highly energy -giving signals from the deep space, have allowed scientists to detect some of the missing substances that have eliminated them for decades.
Fast radio burst reveals hidden baronic substances that widespread intraglactic cosmos spread in fog.
According to a mission update published in Natural Astronomy, researchers at the Caltek and Harvard Smithsin Center for Astro Physics looked at 69 FRBs, some of which traveled for 9.1 billion light years, to find the galaxy -spread baronic substance in space. The use of devices such as Caltek’s deep signupatic array and Australian SACAP helped research to find research in FRB and home, which are very few to detect regular sensors.
So there is a kind of disappearance that has been found: Of course it is made of particles, but we only interact with these particles with second -handed, almost almost throughout the occasional creative confrontation. Cause headlights, FRBS have confirmed it by displaying baronic material – 76 % in intragalic, 15 % in the galaxy halls, and 9 % within the galaxies – can be distributed more equally in space than dark matter.
The first observational evidence of this division that they predicted has been obtained, which shows that the FRB can be used as a “smart tool” to investigate the history of widespread structures and the evolution of the universe. This light seen from these bursts is now a new tool to find remote areas of space.
Caltech’s DSA-2000 radio array can detect more than 10,000 FRBs every year, which significantly forwards the radio astronomy. It can provide a way to better understand the formation and evolution of galaxies and to measure the cosmic structure more accurately. Each new FRB is a new opportunity to fill the map of an unknown universe.
