Did Hawking Solve the Black Hole Information Paradox?

In summary, Professor Stephen Hawking gave a speech discussing the information paradox regarding black holes and how the theory can be resolved. He explained that although information is lost once a black hole is created, it may eventually be preserved if observed from a far enough distance.
  • #1
Xenorelic
6
0
I heard Hawking gave a speech and theory and how the information paradox regarding black holes can be resolved.

I am unable to find any information on this, and will be extremely grateful if someone were to summarise or post a link to a paper regarding this.
 
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  • #3
I want to add that I still have not seen his paper ! He gave several talks, out of which other people have been able to solve the "paradox" which actually never was one.

see "Black holes conserve information in curved-space quantum field theory", gr-qc/0407090 for instance.
http://www.arxiv.org/abs/gr-qc/0407090
 
  • #4
Thanks for the info. Am supposed to do a research paper on this 'paradox'... sigh.
 
  • #5
Depending on the level, some people might help you here :wink:
I am not doing research in this field, just interested. If you have a specific question, somebody should be able to answer, at least a (super)Mentor
 
  • #6
Hawking's Speech

Here is the problem, as Hawking saw it in the past: Things fall into a black hole, and once they pass the event horizon, they are out of communication with the outside world, and the information in them in unavailable, although it hasn't been lost to the whole world, since it still exists inside the horizon. But now, the black hole emits Hawking radiation and loses mass. Hawking had proved that the radiation was "thermal", or "uncorrelated", meaning that it contains no information beyond its temperature.

Eventually the black hole loses all its mass to this non informational radiation and vanishes, and at that point all the information that went into it is completely lost. This might not seem important to many, but it really bothers quantum physicists, for whom unitarity is a prime directive. Unitarity is the principle that information is conserved in all physical interactions; if it fails some of their key math won't work.

This is where things stood for maybe 20 years. But now Hawking comes out with a new idea and says maybe the information is eventually preserved after all. His idea, based on some recent work in string physics, is that we should analyze the black hole from far away, and use the techniques of adding up all possible physical contributions from varying geometries of spacetime to see what happens in the far future. The technique was first thought up by the famous physicist Richard Feynmann, and is called path integrals or sum over histories.

In this sum there will be contributions from simple geometries where the black hole never formed, plus contributions from spacetimes that do have the black hole. And you have to add them up. But now Hawking says he can prove that the part of the sum with a fully formed black hole just dies out, and never reaches the far furure. So the sum in the end only includes the contributions from no-black-hole universe states. And thus the information will reach the far future, possible modified, but not lost.

Hawking has not published his proof yet, and everyone is waiting to see it.

Some things I have seen that I think misrepresent him:
1. The black hole never forms. He didn't say that; he said it has no physical effect on the physics passing from far away to far in the future.

2. The information comes out of the black hole again. He didn't say that either. He said it arrived at the future in possibly modified or distorted form.

You have to understand that by staying far away from the black hole, he essentially winds up saying that the future can't SEE the black hole, even if it formed, and the future CAN see the information, whatever happened to it in between.
 
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  • #7
If I can dare adding something to sA's post :
the story began with the no-hair theorem : a static spherical black hole is totally determined by only 3 parameters : mass, charge and angular momentum. This was later generalized to more realistic black-holes (especially, we expect them to rotate). That is all the information needed : 3 numbers ! Throw Shakespeare's antology, you get only 3 numbers out of it ! That's a loss :rolleyes:
 
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  • #8
I see. That summary is so much more easy to the ear than his actual speech.
 
  • #9
Xenorelic said:
I see. That summary is so much more easy to the ear than his actual speech.
:rofl: :surprise: :biggrin: :rofl: :surprise: :biggrin:
Making fun of disabled persons is bad :devil:
Then of course, it's really fun :tongue2:
 

1. What is the information paradox?

The information paradox is a theoretical problem in physics that arises in the study of black holes. It is the apparent contradiction between the laws of quantum mechanics and the laws of general relativity, where the latter suggests that anything that falls into a black hole is lost forever, while the former implies that information cannot be destroyed.

2. How is the information paradox resolved?

The information paradox is resolved through the theory of Hawking radiation, proposed by physicist Stephen Hawking. This theory suggests that black holes emit radiation, which contains information about the matter that was once inside the black hole. This allows for the preservation of information, resolving the paradox.

3. Why is the resolution of the information paradox significant?

The resolution of the information paradox has significant implications for our understanding of the universe and the laws of physics. It provides a way to reconcile two seemingly contradictory theories and sheds light on the behavior of black holes, which are some of the most mysterious and extreme objects in the universe.

4. What evidence supports the resolution of the information paradox?

There is currently no direct observational evidence for Hawking radiation, but there have been theoretical calculations and simulations that support its existence. Additionally, the resolution of the information paradox is supported by the fact that it is the only known way to reconcile quantum mechanics and general relativity in the context of black holes.

5. Are there any remaining questions or uncertainties about the resolution of the information paradox?

While the theory of Hawking radiation has gained widespread acceptance, there are still some open questions and areas of uncertainty. One of the main challenges is reconciling Hawking radiation with the laws of thermodynamics. Additionally, the resolution of the information paradox only applies to idealized black holes and may not hold true in more complex scenarios.

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