Black Holes Not Black After All, Theorize Physicists

KentuckyFC (1144503) writes Black holes are singularities in spacetime formed by stars that have collapsed at the end of their lives. But while black holes are one of the best known ideas in cosmology, physicists have never been entirely comfortable with the idea that regions of the universe can become infinitely dense. Indeed, they only accept this because they can't think of any reason why it shouldn't happen. But in the last few months, just such a reason has emerged as a result of intense debate about one of cosmology's greatest problems — the information paradox. This is the fundamental tenet in quantum mechanics that all the information about a system is encoded in its wave function and this always evolves in a way that conserves information. The paradox arises when this system falls into a black hole causing the information to devolve into a single state. So information must be lost.

Earlier this year, Stephen Hawking proposed a solution. His idea is that gravitational collapse can never continue beyond the so-called event horizon of a black hole beyond which information is lost. Gravitational collapse would approach the boundary but never go beyond it. That solves the information paradox but raises another question instead: if not a black hole, then what? Now one physicist has worked out the answer. His conclusion is that the collapsed star should end up about twice the radius of a conventional black hole but would not be dense enough to trap light forever and therefore would not be black. Indeed, to all intents and purposes, it would look like a large neutron star.

Mostly done by 1985...

[MrKevvy]

Frozen Star by George Greenstein had as a central theme that due to gravitational time dilation that we could never see a star collapse beyond its own event horizon: it would asymptotically approach it as arbitrarily close as we liked given unlimited time but never cross it. So as a natural consequence there was always a tiny but measurable probability that trapped light and thus information could escape.

Although this is a layperson's work, it is based on his published papers which provide a mathematical background.

Re:Mostly done by 1985...

[smooth+wombat]

there was always a tiny but measurable probability that trapped light and thus information could escape.

Isn't that the same thing as Hawking Radiation? I'm sure Dr. Hawking proposed and submitted work explaining the same thing.

In fact, here is what I am talking about.

Re:Mostly done by 1985...

[slew]

Gravitational time dilation affects the falling object, not the observer. If you claim that if I throw a baseball at a sufficiently large star then I'll eventually see the baseball slow down as it approaches it, then you need an explanation for the repulsive force.

Actually you probably won't actually "see" it slow down, it will eventually red-shift to be invisible (which is actually slowing down). Gravitational time dilation makes an object an object approaching the event horizon of a black hole to appear to slow down, taking an infinite time to reach the event horizon.

Re:Mostly done by 1985...

[ceoyoyo]

Physicists originally called black holes "frozen stars" because the flow of time stops at the event horizon. Nothing can fall past an event horizon in outside time because that would take an infinitely long time to happen. It also can't happen from the perspective of an observer falling in, provided the outside universe has a finite lifetime. So you can never get a singularity.

I'm not really sure why that idea doesn't get more attention from today's physicists.

Not just physicists

[K.+S.+Kyosuke]

physicists have never been entirely comfortable with the idea that regions of the universe can become infinitely density

I'm pretty sure that editors outside of /. have never been entirely comfortable with that idea either.

Orange?

[Sporkinum]

Orange is the new black...hole...

Re:wat

[NoNonAlphaCharsHere]

Holy crap. The referenced paper is dense enough to have its own Schwarzschild radius.

Infinite density

[Cro+Magnon]

physicists have never been entirely comfortable with the idea that regions of the universe can become infinitely density.

They've clearly never been to DC. I'm convinced that regions of the universe are infinitely dense.

Re:So ...

[pushing-robot]

Chicken. It looks like chicken.

Re:Do Slashdot editors actually edit?

[burisch_research]

No, you are dead wrong, completely and utterly wrong. "For all intents and purposes" has been down-grammaticised into "for all intensive purposes". The latter has no actual meaning.

Re:So ...

[NoNonAlphaCharsHere]

WTF does a large neutron star look like then?

Like a small neutron star. Only bigger.

Re:Do Slashdot editors actually edit?

[Daetrin]

"For all intents and purposes" has been down-grammaticised into "for all intensive purposes". The latter has no actual meaning.

That is untrue! For all intensive purposes i use an exercise machine!

Re:Or, maybe there's no paradox at all.

[dunkindave]

And yeah, I know that astrophysicists with a vastly more qualifications than I have came up with these ideas, but in the end, an argument from authority does not make one actually right.

This is actually one of my nits with these kinds of articles. When someone says "Now one physicist has worked out the answer", the use of the phrase "the answer" means in English that the question is now closed. He has found THE answer, meaning the one and only answer, hence the use of the word 'the' instead of the word 'a'. In reality, the article should say "Now one physicist has worked out a possible answer". What he has presented is a theory that he believes is consistent with known physics and observations. That is all it is.

Re:So ...

[Pope]

Imagine a perfectly spherical chicken...

Re:Wait

1) Information is another term for entropy.

2) Thermodynamic says that potential energy and entropy are inversely proportional in an isolated system.

3) Thermodynamics furthers says that the entropy of an isolated system always increases until it reaches a minimum potential energy state. Why? If the entropy of a system decreases, that implies that potential energy is increasing. But if it's an isolated system, where did that potential energy come from?

Because black holes exist within an isolated system that is the universe, if they were able to decrease the entropy of the universe then that would imply that they're generating potential energy. Remember that capacity for work is the same as potential energy, so black holes would then be the equivalent of perpetual motion machines because the expenditure of potential energy (i.e. work) creates more entropy, which would be swallowed by a black hole, which would generate more potential energy, ad infinitum. That state of affairs just wouldn't seem to mirror our larger understanding of the universe.

Also, consider that what we call "time" is effectively the same as an increase in entropy. That is, the universe is evolving to a minimum potential energy state, which is the same as "aging". If you could decrease entropy you'd effectively be making time go backward.

Of course, all this is premised on our definition of information, entropy, potential energy, etc. But as far as we know they're extremely solid and coherent concepts, and it makes more sense that some supposed phenomenon which violates that model is more likely to be false than those concepts are.

Anyhow, I'm not a physicist. I don't even play one on TV. I hope real physicists correct my mistakes.

Re:wat

[TemperedAlchemist]

Since no one has actually peeked inside of a black hole we really can't tell for certain.

What we do know is that when we do the math on our models what we find are things approaching infinity. Sometimes these are just caused by using the wrong coordinate system, but other times when we change coordinate systems, the singularity still exists.

It's important to note that when speaking about infinity don't fall into the fallacy of treating it as a value. You cannot have an infinite amount of something, but you can have something which has infinite characteristics. Consider Hilbert's Hotel which is an example of the hilarity found when trying to add finite numbers and infinity together. The expression " + 1" is meaningless because you can't add a value to infinity any more than you can add "a + 1".

What's actually happening in Hilbert's Hotel is the addition of aleph numbers with finite numbers, which you can do, but has silly results. Aleph-0 + 1 = Aleph-0. But this just describes the extent of the set, suppose we took a sum and looked at it:

1 + 2 + 3 + ... n + 1 = 2 + 2 + 3 + ... n

And no matter what you try to do with it, that extra one is still hiding in the sum. If you take this new set and subtract it by all of the natural numbers, you should be left with the result of 1. One of the most irritating things is when people say you can do things like you can in Hilbert's Hotel, writing it off like it's some quirk of infinity. But it's not. If you shifted all of the guests over to only even rooms, you would still have the same number of guests and rooms.

2((n) n) = 2 + 4 + 6 + ... 2n

You've effectively just doubled the number of rooms. It's a sleight of hand that breaks the rules. "But!" you may say, "You have infinite many rooms, so of course you have a room at 2n!" If you do think this then you're still caught up thinking about infinity as a literal value. You don't have a room at 2n, your rooms only extend to n, and now half of your guests (which is still an infinite many) don't have rooms, but are left to stand out in an endless hallway.

In essence, one kind of infinity does not necessarily equal another kind. /rant

Correct: many phenoma in astrophysics are ideas

[TrollstonButterbeans]

>A lot of phenomena in astrophysics are ridiculous, but real.

No there are many ideas in astrophysics. We don't know if they are real.

Dark matter? Maybe or maybe not. Dark energy? Maybe or maybe not.

Hawking radiation? It is an idea, it hasn't been proven or disproven.

Speed of light limitation? Probably, but how are neutrinos that have mass going 99.9999% the speed of light? That should require almost infinite energy shouldn't it?

Big bang? A large body of evidence points to a time limit to the beginning of the universe, but cosmic background radiation is the only stronger evidence of a big bang --- yet this could have another explanation.

Cosmic inflation? Could be a non-starter for reasons we currently don't have a handle on --- case in point, it is only happening *far away*. Supernova are used as standard candles, but what if we had different looking supernova 10 billion years ago and our measurements are wrong, therefore inflation isn't happening.

Astrophysics is an emerging field, even now. There are few ways to test all the ideas.

Many of the theories of the exotic blackholes rest precariously on a shaky house of cards, because there is no convenient way to test the ideas.

Re:Correct: many phenoma in astrophysics are ideas

Speed of light limitation? Probably, but how are neutrinos that have mass going 99.9999% the speed of light?

Electrons and positrons in LEP, the predecessor to LHC were going about 99.99999996% of the speed of light. That was far from infinite energy, and not even a lot by cosmic ray standards. For a neutrino to go 99.9999 would need about ~70 eV of energy, which is an order of magnitude larger than energetic chemical reactions, but quite tame by nuclear reactions. Nuclear reactions can easily produce neutrinos with energies from 0.1-10 MeV, up to 100,000 times as much.

Re:wat

[Jeremiah+Cornelius]

Yeah, well... your MOM is infinitely dense.

Yours is not infinitely dense. After all, everyone penetrates her.

Re: wat

[Jeremiah+Cornelius]

What if ONLY infinities exist? After all, what could lie outside them?

In fact, there'd be only "Infinity" all sense of plural or singular being reduced to non-statements.

Wow.

Have you ever REALLY looked at your fingernails, man?

Re:wat

[Jeremiah+Cornelius]

Define a circle.

Do circles exist in reality, or only in mathematical models?

What do engineering artifacts, as approximations of circles, bear in relation to "real" circles?

Are infinities actual, or are they mathematical descriptions for mental extrapolations based in observed phenomena?

Do mathematical models display consistency with real, observable phenomena or with any mental extrapolation? Which one is more "real"? Why?

Mathematics can only describe the set of perceptions, IMHO. When they describe unperceived "realities" they enter the realm of fictions or metaphysics.