AKURAT.CO, Astronomers can see the interior of a black hole for the first time. This achievement also proves that Albert Einstein’s theory is correct.
The researchers proved this theory by studying a supermassive black hole that is 800 million light years from Earth. Astronomers have managed to see something behind the black hole for the first time and have proven that Albert Einstein was right about how this mysterious celestial giant behaves.
Quoting from Stuff, an international team of researchers used a high-powered X-ray telescope to study a supermassive black hole 800 million light-years away at the center of a distant galaxy. Then the researchers looked at the characteristics of black holes, but they also saw light in the form of X-rays emitted by the far side of the black hole.
Black holes are born when a giant star explodes in a supernova and then collapses on its own. This explosion formed an incomprehensible dense material that engulfed everything around it in general, and therefore it should be impossible to see light from the back of the black hole.
However, Albert Einstein’s dogmatic theory of general relativity in 1915 predicted that the gravitational pull of black holes might be enormous. That is, the gravitational pull of black holes can bend the fabric of space, rotate magnetic fields, and bend light.
So Einstein’s work confirms that it should be possible to see light waves emitted from the far side of a black hole. Because, according to him, the distorted magnetic field can act as a mirror.
Scholars accepted the theory, but were unable to observe the phenomenon directly. This is the first time, thanks to modern telescopes and the development of highly sensitive instruments, that they have seen the phenomenon.
Dan Wilkins, an astrophysicist at Stanford University, is the researcher who discovered this. After checking the data, he saw what he expected, X-rays were spewed straight into Earth from the black hole’s core, but he also saw an unexpected echo shortly after. According to him, these are X-rays thrown in the opposite direction from Earth, but reflected by the magnetic field of the shattered black hole.
The findings of Wilkins and his colleagues were published in the journal Nature on July 28, 2021. These findings, once again, prove that Albert Einstein’s thinking is correct, and further supports the general theory of relativity.
“Fifty years ago, when astrophysicists started speculating about how magnetic fields might behave close to black holes, they had no idea that one day we might have the technique to observe this firsthand and see Einstein’s general theory of relativity in action,” said Professor Roger. Blandford of Stanford University, Wilkins’ colleague who co-authored the report. Astronomers Can See Behind Black Holes, This Proves Einstein’s Theory
Astronomers can see the interior of a black hole for the first time. This achievement also proves that Albert Einstein’s theory is correct.
The researchers proved this theory by studying a supermassive black hole that is 800 million light years from Earth. Astronomers have managed to see something behind the black hole for the first time and have proven that Albert Einstein was right about how this mysterious celestial giant behaves.
Quoting from Stuff, an international team of researchers used a high-powered X-ray telescope to study a supermassive black hole 800 million light-years away at the center of a distant galaxy. Then the researchers looked at the characteristics of black holes, but they also saw light in the form of X-rays emitted by the far side of the black hole.
Black holes are born when a giant star explodes in a supernova and then collapses on its own. This explosion formed an incomprehensible dense material that engulfed everything around it in general, and therefore it should be impossible to see light from the back of the black hole.
However, Albert Einstein’s dogmatic theory of general relativity in 1915 predicted that the gravitational pull of black holes might be enormous. This means that black holes’ gravitational pull can bend the fabric of space, rotate magnetic fields, and bend light.
So Einstein’s work confirms that it should be possible to see light waves emitted from the far side of a black hole. Because, according to him, the distorted magnetic field can act as a mirror.
Scholars accepted the theory, but were unable to observe the phenomenon directly. This is the first time, thanks to modern telescopes and the development of highly sensitive instruments, that they have seen the phenomenon.
Dan Wilkins, an astrophysicist at Stanford University, is the researcher who discovered this. After checking the data, he saw what he expected, X-rays were spewed straight into Earth from the black hole’s core, but he also saw an unexpected echo shortly after. According to him, these are X-rays thrown in the opposite direction from Earth, but reflected by the magnetic field of the shattered black hole.
The findings of Wilkins and his colleagues were published in the journal Nature on July 28, 2021. These findings, once again, prove that Albert Einstein’s thinking is correct, and further supports the general theory of relativity.
“Fifty years ago, when astrophysicists started speculating about how magnetic fields might behave close to black holes, they had no idea that one day we might have the technique to observe this firsthand and see Einstein’s general theory of relativity in action,” said Professor Roger. Blandford of Stanford University, Wilkins’ colleague who co-authored the report.
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