According to a new study, astronomers have discovered a wide cloud of passionate particles-a ‘mini-Hall’-a new study. This mini -halo is so far away that its light takes 10 billion years to reach the earth, which makes it the most discovered far away the mini -halo and double the record of the previous distance. This detection shows that even in the early universe, the massive galaxy cluster was already full of high energy particles. The International Research Team was jointly headed by Julie Halavasic-Larondo and Roland Timerman.
The unconscious radio glue revealed the mini Hallow
According to the study, the team used European low -frequency array (loofer) radio telescope to study the distant cluster Sparks 1049. LOFFER – More than 100,000 antenna network spread across eight European countries occupied a very unconscious, spreading radio signal around the cluster. The brightness has extended more than a million light years, which shows a large “mini Hall” of high energy particles and magnetic sectors.
The analysis shows that the emission has filled the space between galaxies rather than coming from any galaxy. It took 10 billion years to reach the cluster light, doubled the record of any well -known mini -Hallow. Research Julie Halavasic-Larondo co-leader describes it as a wide cosmic sea, in which the entire galaxy clusters are constantly submerged in high energy particles.
The origin of the mini -halo
There are two important ideas for the origin of the mini -Hall. There is a possibility that the powerful jets of Super Mase Black Hole in the cluster galaxies have injected energy particles into space. However, it is unclear how such particles can travel away from galaxy centers without losing their energy.
Another idea is that cluster gas collisions produce particles. In this scenario, at the near -high speed, the intra -cluster plasma crashes manufacture particles in the crash, manufacture observed high -energy particles. These observations show that large -scale clusters were already filled with energy particles very soon. Future devices such as square kilometers of array (SKA) will also be found unconscious mini Hallows, which will help scientists study the role of magnetic fields and cosmic rays in cluster evolution.
