Curiously, astronomers drove by Dan Wilkins of Stanford University saw flares of X-ray radiation beginning from behind a black hole. The X-ray flares reflected off the gas going into the black hole, and the telescopes got fainter lights as the flares obscured. The theory states, these luminous echoes were consistent with X-rays reflected from behind the black hole – yet even a fundamental perception of black holes unveils to us that is an odd spot for light to come from.
The corona was being concentrated by the subject matter experts, yet telescopes got unanticipated “luminous echoes.” More humble, later, and of a sudden concealing in contrast with the astounding flares, these further flickers appeared. Albert Einstein’s general theory of relativity is backed up by the discovery. The gravitational draw of black holes winds light rays around themselves, allowing specialists to see what lies behind them curiously.
“Fifty years earlier, when astrophysicists began to guess how the alluring field might act close to a black hole, they had no idea about that one day we might have the methods to see this directly and see Einstein’s general theory of relativity, in actuality,” said Roger Blandford, a co-author of the examination dispersed in Nature.