Stephen Hawkings Black Hole Paradox May Finally Have Been Solved

Black holes are known to be able to destroy planets whenever they want and leave nothing behind. This time he focused his attention on the universe of physics itself. Stephen Hawking’s black hole hypothesis had the potential to turn all of physics on its head, as it called into question the two pillars on which much of our knowledge of the universe is based: relativistic theory and quantum physics. One theory claims that nothing will ever survive a black hole, while another, based on thermal analysis, claims that energy cannot be lost and that if something enters a black hole, there must be some evidence of it.

Stephen Hawking

The researchers reportedly claim to have solved the information dilemma and argue that these questions are more difficult than previously thought. Black holes contain a gravitational field that reveals information about how they were created at the subatomic level. A black hole is formed when a star dies under such a strong gravitational pull that everything is pressed into a small area below it, retaining the radiation from the collapsing star. Because matter is crammed into such a small space, gravity is extremely strong. Humans cannot perceive black holes because light cannot escape. They are unnoticed.

Scientists claim hairy black holes explain Hawking's paradox - BBC News

There were several alternative approaches, along with “firewall theories”, which assumed that the material would burn up before it got close to the black hole, “fluffball theory”, which believed that black holes had ambiguous boundaries, and other exotic aspects. theoretical physics. . However, most of these solutions involved modifications to the principles of particle physics or Einstein’s theory of relativity, two cornerstones of modern physics.

Stephen Hawking: Simplifying Black Holes, Unraveling the Information Paradox: Stephen Hawking's Biggest Contribution to Science - The Economic Times

Professor Xavier Calmette of the University of Sussex, who led the study, said that after a century of focusing on the mathematics behind the problem, his team had made significant progress in the past year, giving them confidence that they had finally solved it.

“It was widely believed in the scientific establishment that overcoming this dilemma would require a major paradigm shift in physics, potentially requiring a rethinking of either classical physics or general relativity,” Calme explained. “What we have discovered – and what I find very intriguing.”

“When you make big statements, you have to support that statement,” Calme added. It will take time for people to finally understand this. This dilemma has been around for quite some time, and eminent personalities from all over the world have been exploring it for centuries.”

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