Astronomers discovered the biggest explosion seen in the Universe since the Big Bang, Scientists who study clusters of distant galaxies have discovered the biggest explosion ever seen in the universe since the Big Bang.

The explosion came from a supermassive black hole at the center of the galaxy hundreds of millions of light years away.

There are five times more power than the previous recorder. We have seen galaxies at the center of galaxies, but these are really massive, researchers say.

And we don’t know why he is so big. But it happens very slowly, like a slow-motion explosion that has happened for hundreds of millions of years. The biggest explosion seen in the Universe since the Big Bang.

The explosion occurred in the galaxy group Ofychus, about 390 million light years from Earth. It was so strong that it penetrated the cavity in the plasma cluster with hot gas surrounding the black hole.

Researchers say: The difference is that you can place 15 galaxies in sequence in the Milky Way in the crater to investigate this eruption in hot gas clusters. Cavities in the plasma cluster were previously observed with X-ray telescopes. The biggest explosion seen in the Universe since the Big Bang

However, scientists initially rejected the idea that this could be caused by an energy outbreak because it would be too large. People are skeptical about the extent of its spread. But it’s true. The universe is a strange place.

The researchers only realized what they found when they saw the Opius galaxy cluster with a radio telescope.

Radio data are compatible with X-rays, said a researcher at NASA’s Godard Space Flight Center. This is the determinant that tells us that an unprecedented escape took place here.

This discovery was made using four telescopes; NASA Chandra X-ray Observatory, ESMM XMM Newtonian, Murchison Widefield (MWA) in Western Australia and GMRT (Giant Metrewave) radio telescope in India. The biggest explosion seen in the Universe since the Big Bang.

We were given a tool to dig deeper with low frequency radio telescopes. Now we must be able to find more bursts like that. Going back and running a multi-wave study really made a difference here, researchers said. This finding will likely be the first of many.

We made this discovery with MWA phase 1 when the telescope had 2048 antennas pointing to the sky, the researchers said. We will soon be collecting observations with 4,096 antennas which should be ten times more sensitive.