The Hawking Paradox (2005) BBC Horizon

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THE HAWKING PARADOX



Has Stephen Hawking been wrong for the last 30 years?



Stephen Hawking is the most famous scientist on the planet. His popular science book 'A Brief History of Time' was a publishing sensation, staying at the top of the bestseller lists longer than any other book in recent history. But behind the public face lies an argument that has been raging for almost 30 years.



Hawking shot to fame in the world of physics when he provided a mathematical proof for the Big Bang theory. This theory showed that the entire universe exploded from a singularity, an infinitely small point with infinite density and infinite gravity. Hawking was able to come to his proof using mathematical techniques that had been developed by Roger Penrose. These techniques were however developed to deal not with the beginning of the Universe but with black holes.



Science had long predicted that if a sufficiently large star collapsed at the end of its life, all the matter left in the star would be crushed into an infinitely small point with infinite gravity and infinite density – a singularity. Hawking realised that the Universe was, in effect, a black hole in reverse. Instead of matter being crushed into a singularity, the Universe began when a singularity expanded to form everything we see around us today, from stars to planets to people. Hawking realised that to come to a complete understanding of the Universe he would have to unravel the mysteries of the black hole.



Taming the black hole

Hawking and his fellow physicists embarked on an extraordinary intellectual expedition – to tame the black hole. The period from the early 70s to the early 80s became known as the golden age of black hole research. Slowly physicists were coming to understand this most destructive force of nature.



But Hawking realised that there was something missing from the emerging picture. All work on black holes to that point used the physics of the large-scale Universe, the physics of gravity first developed by Newton and then refined by Einstein's theories of general and special relativity.



Hawking realised that to come to a full understanding of black holes, physicists would also have to use the physics of the small-scale Universe; the physics that had been developed to explain the movements of atoms and sub-atomic particles, known as quantum mechanics. The problem was that no one had ever combined these two areas of physics before. But that didn't deter Hawking. He set about developing a new way to force the physics of quantum mechanics to co-exist with Einstein's relativity within the intense gravity of a black hole.



Hawking radiation

After months of work Hawking came up with a remarkable result. His equations were showing him that something was coming out of the black hole. This was supposed to be impossible. The one thing that everyone thought they knew about black holes was that things went in but nothing, not even light itself, could escape.



But the more Hawking checked, the more he was convinced he was right. He could see radiation coming out of the black hole. Hawking then realised that this radiation (later called Hawking Radiation) would cause the black hole to evaporate and eventually disappear.



Although Hawking's theories about black hole evaporation were revolutionary, they soon came to be widely accepted. But Hawking knew that this work had far more fundamental consequences. In 1976 he published a paper called 'The Breakdown of Predictability in Gravitational Collapse'. In it he argued that it wasn't just the black hole that disappeared. All the information about everything that had ever been inside the black hole disappeared too.



Are there limits to what science can know?


In everyday life we're used to losing information but according to physics this isn't supposed to happen. Physics has it that information is never really lost, it just gets harder to find. Physicists cling on to this idea because it's their link with either the past or the future. If information is lost then science can never know the past or predict the future. There are limits to what science can know.



For many years no one took much notice of Hawking's ideas until a fateful meeting in San Francisco. Hawking presented his ideas to some of the world's leading physicists. In the audience were Gerad t'Hooft and Leonard Susskind, two leading particle physicists. They were shocked. Both realised that Hawking's 'breakdown of predictability' applied not only to black holes but to all processes in physics. According to Susskind, if Hawking's ideas were correct then it would infect all physics, there would no longer be any direct link between cause and effect. Physics would become impotent.



Since that meeting the 'information paradox' has become one of the most fundamental and most difficult problems in physics. Arguments effectively boiled down into two camps. On the one side were Susskind and those who believed that Hawking was wrong: information could not be lost. On the other were Hawking and those who believed that physics would have to be rewritten to take into account the uncertainty about information that Hawking had uncovered.



For 20 years arguments raged. Neither side was willing to admit defeat. Until a paper emerged by a brilliant young Argentinean mathematician known as Juan Maldacena. It claimed to be a rigorous mathematical explanation of what happened to information in black holes. It showed that information was not lost. Hawking, it seemed, was on the losing side. But he was not convinced.



Hawking set to work with a young research student, Christophe Galfard, to try to pick apart the Maldacena paper. They thought they could use the same mathematical techniques employed by Maldacena to prove that information was in fact lost. But after two years they still could not prove their thesis.



Solving the paradox

Then disaster struck. Hawking was taken ill with pneumonia and rushed to hospital. Doctors feared for his life. He was kept in hospital for over three months. But whilst others fussed over his health, Hawking was thinking. Finally, on what many feared might be his death bed, he thought he'd come across what had eluded him for the past 30 years – a solution to the information paradox.



Once again Hawking defied the doctors' dire predictions and was soon back at work, working on a new proof for the information paradox. Then in July 2004, at one of the most prestigious conferences in physics, Hawking made a dramatic announcement. He claimed to have solved the information paradox. But to the surprise of many in the audience he was not at the conference to defend his long held belief that information was lost in black holes, instead he claimed that he could now prove the opposite.



Hawking presented the outline of a proof that he hoped would at last solve the problem that he had posed almost 30 years earlier. But despite the bold claims, some physicists remain unconvinced. Over a year has passed since the conference and he has still not presented a fully worked mathematical proof to back up his ideas.



But Hawking is a stubborn man. If Hawking is going to change his mind on a view he held for almost 30 years then it will be with his own proof, in his own time. In spite of failing health and increasing problems communicating with his colleagues, he is still working on the proof. If he succeeds in completing a proof that convinces his colleagues, he will not only have solved one of the most difficult problems in physics but he will have managed to have produced ground breaking work at the very end of his career. A feat that even his hero Einstein could not accomplish.



Source: http://www.bbc.co.uk/sn/tvradio/programmes/horizon/hawking_p...



 



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