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Before the Big Bang: A Twin Universe?

Posted by samzenpus on from the two-possibilities-one-great-reality dept.

esocid writes "Until very recently, asking what happened at or before the Big Bang was considered by physicists to be a religious question. General relativity theory just doesn't go there — at T=0, it spews out zeros, infinities, and errors — and so the question didn't make sense from a scientific view. But in the past few years, a new theory called Loop Quantum Gravity (LQG) has emerged. The theory suggests the possibility of a "quantum bounce," where our universe stems from the collapse of a previous universe. This may be similar with beliefs of Physicist Neil Turok of Cambridge University who has theorized about a cyclic universe, constantly expanding and compressing."

21 of 212 comments (clear)

  1. Before the big bang... by Anonymous Coward · · Score: 5, Funny

    he got her really drunk.

  2. Re:Fallacy of the Big Bang Theory by tgd · · Score: 5, Funny

    I was about to mod this funny, but suddenly I got this feeling that maybe you were serious.

    I have no response to that other than, um, sometimes its best to not post your thoughts in public where others can see...

  3. The Alternative Factor? by bcat24 · · Score: 3, Funny

    The universe is safe for you and me, but what of Lazarus?

  4. Galactus by dpilot · · Score: 4, Funny

    Marvel Comics has been telling us this for years! Decades, even!

    Galactus, the Overmind, and the Stranger all came from the previous Universe, by one mechanism or another surviving the Big Crunch and the following Big Bang. There may be other previous universe types, but those 3 are the only ones I picked up on, back in my comic book days. (decades ago, even)

    --
    The living have better things to do than to continue hating the dead.
  5. Re:Thanks for furthering your agenda! by zeroharmada · · Score: 3, Funny

    Citation needed
    http://xkcd.com/285/

  6. Re:Fallacy of the Big Bang Theory by Ungrounded+Lightning · · Score: 5, Informative

    You are assuming that the scale of space is stable - that the separation of galaxies comes entirely from their material moving apart (at sublight speed) since they were essentially together in the moments after the big bang.

    In fact space itself stretches. The separation of the material between pairs of distant (and near) galaxies comes from both their motion through space and the stretching (expansion) of the space between them.

    The result is that sufficiently distant galaxies can be much farther apart than they could have traveled - even at the speed of light - through non-expanding space in the time since the big bang.

    --
    Bantam Dominique roosters crow a four-note song. Once you've heard it as "Happy BIRTHday" you can't NOT hear it that way
  7. Re:Fallacy of the Big Bang Theory by Anonymous Coward · · Score: 3, Informative

    Well I guess that's why half the night sky isn't some gargantuan fiery explosion.

    Sure it is. http://en.wikipedia.org/wiki/CMB

    Also, http://xkcd.com/54/
  8. Re:Thanks for furthering your agenda! by Max+Littlemore · · Score: 4, Funny

    There are different kinds of intelligence. Some people can solve complicated problems like getting laid but can't handle simple problems like calculating pi to 15 places using a couple of paper clips a rubber band and a slinky. This doesn't make them useless to society, and I think we should celebrate our differences.

    To look at it another way, Einsein supposedly intuited a lot of his work and then proved it later. He had that kind of mind. If Einstein had been a goat herd 2000 years ago, the accepted mode of proof would have been vastly different, so proof from them rates as primitive religion now just as general relativity is the superstitious mumbo jumbo of the future. I'd take you in my time machine to prove it, but it only seats one and I know you're prone to not returning them... or will be on July 12th, 2017.

    Also, Einsein was wrong about a whole lot of stuff, but that doesn't make his contribution useless. Ditto for the goat herders.

    If someone does finally work it out, kill him. Until then, being open to the idea that someone who can't read or write but can play world class lawn bowls probably has as much, if not more insight into the true nature of nature than Hawking et al is a healthy perspective.

    --
    I don't therefore I'm not.
  9. hurts my head by INeededALogin · · Score: 4, Insightful

    Adams said it best: "The Universe, as has been observed before, is an unsettlingly big place, a fact which for the sake of a quiet life most people tend to ignore."

  10. not just loop quantum gravity by bcrowell · · Score: 5, Interesting

    There's nothing particularly special about loop quantum gravity that makes it possible to avoid having a singularity at the big bang. Loop quantum gravity is just one theory of quantum gravity. The best known theory of quantum gravity is string theory. In pretty much any theory of quantum gravity, the classical picture of the big bang singularity is going to get heavily modified. The conditions of the big bang are pretty much the only conditions under which you really need a theory of quantum gravity (unless you're really clever about finding some other situation, like black hole evaporation, where quantum gravitational effects come in). In all theories of quantum gravity, there's a scale called the Planck scale, and when you go beyond that scale (e.g., the universe is hot enough so that the wavelengths of particles are on the order of the Planck length), mysterious stuff happens. Because of this, it's reasonably plausible that the big bang singularity is eliminated in any theory of quantum gravity.

    Old attempts to make a theory of a rebounding big bang (with, e.g., a cyclic universe) had various technical problems, which have been solved in recent years. In a rebounding big bang, there are issues to worry about such as what happens to causality, entropy, and the thermodynamic arrow of time. E.g., you could imagine that a universe cycles through a series of big bangs, and that each cycle is a lot like the one before, or you could imagine that the second law of thermodynamics operates across rebounds, so that each cycle has more entropy than the one before. You could imagine that there could be cause and effect relationships extending across rebounds, or that that could be prevented by the laws of physics. Some people believe that there's an unsolved "entropy problem" in the current standard big bang theory. Here is a good FAQ about cyclic models.

    --
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    1. Re:not just loop quantum gravity by Anonymous Coward · · Score: 5, Informative

      Disclaimer: I work on loop quantum gravity.

      Actually there IS something special about loop quantum cosmology - it's theory actively predicts a big bounce instead of a big bang. This comes directly out of the loop quantization of a homogenous and isotropic cosmology. So far all other theories have had to put in a bounce "by hand" - adding extra physics at the singularity in order to get something out of the other side. LQC doesn't do that - it replaces the usual metric and curvature operators with holonomies and flux operators as done in loop quantum gravity (OK, the derivation isn't exact yet, and we've a lot more work to do here).

      Once you do this, however (and by using other tricks like using a massless scalar field as your time variable), you see that a contracting branch naturally re-expands once you reach a critical matter density (something like 82% of the Planck density - Ashtekar has a good numerical reason for this IIRC). In these steps you end up replacing the Wheeler-deWitt equation (a continous differential equation) with a difference equation which needs to pick a certain super-selection sector of the theory - in simpler terms the timestep effectively becomes discrete.

      The beauty of LQC is that it doesn't need us to speculate about what happens at singularities - it gives us an active way to look at them without needing to invent new physics that only apply there. Sure, it makes a few assumptions - that our basic observables are holonomies and fluxes - but there's no new input directly at the singularity, unlike in other theories (such as ekpyrotic scenarios where two branches are joined artificially across the singularity.

      For an introduction, see Martin Bojowald's (one of the founders of LQC) living reviews site:
      http://relativity.livingreviews.org/Articles/lrr-2005-11/

      If you have questions, please reply and I'll see what I can do to answer them to the best of my ability. If there's enough interest, I might be able to get an "Ask Slashdot" type of thing put to Ashtekar/Bojowald although it'll probably be their post-docs and grad students who end up answering all the questions ;)

  11. Re:Fallacy of the Big Bang Theory by Dunbal · · Score: 3, Interesting

    But CMB fills the entire universe, it doesn't come from one localized area. See the part of his post:

          What you want is a specific "point" at which the big bang happened. That's not the case. When it happened - it WAS the universe - ie it was every single point at once. As the universe expands - anywhere you look from or to you'll be able to see this background radiation. Of course there will be fluctuations if the expansion of the universe isn't completely uniform - and why should it be? Matter distorts space and time, contributing to this non-uniformity.

    --
    Seven puppies were harmed during the making of this post.
  12. If it really is just nodes and links at the bottom by ynotds · · Score: 4, Interesting

    Though coming from very different directions, both LQG pioneer Lee Smolin and Stephen Wolfram, who needs no introduction here, have opined that the best candidate as the fundamental level of a discrete physics (i.e. where the appearance of being continuous is emergent) is a graph theoretic network of nodes and links where it ceases to make sense to ask what they are made of. (This is also explored in Greg Egan's Schild's Ladder .) The basic idea is that there is some simple enough but cosmologically consistent transformation rule which produces the next local state of the graph from the current local state, supposedly at the Planck scale (of order 10^43 times per second).

    A likely scenario is that "somewhere" long unreachable beyond our event horizons, there was a region of network sustaining chaotic inflationary expansion in which a bubble of more conservative physics emerged. Our conservative bubble only exhibits polynomial (near cubic) growth but that was enough to separate it from the exponentially growing seed graph.

    My current betting is that Type 1a Supernovae, or at least some more precise analogue thereof in our parent cosmos, seed new outbreaks of chaotic inflation in which a new generation of more conservative bubble cosmoses arise, the whole process being susceptible to selection for fecundity and constrained only by the need for a viable history to some initial conditions simple enough to have just happened, presumably for no better reason than because nothing is unstable.

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    -- Our systemic servants do not good masters make.
  13. Re:You can go almost 3 times the speed of light? by FooAtWFU · · Score: 4, Informative

    So it would be safe to say that if nothing can travel faster than the speed of light, we could witness objects distancing themselves at almost 3 times the speed of light, considering the addition of each: - object A can travel "just a bit slower" than the speed of light in one direction - space can stretch "just a bit slower" than the speed of light - object B can travel "just a bit slower" than the speed of light in opposite direction from object A Interesting isn't it? Unfortunately, you can't do simple addition when you're dealing with relativistic velocities. The details of the math are beyond me, but in essence: velocity is a defined distance traveled over a certain amount of time. And, under relativity, time is not constant.

    Consider having two probes going away from Earth at 60%-lightspeed in opposite directions, and they want to communicate with each other. At 120%-c speeds, you might think it's impossible. But each of them could communicate back and forth with Earth at mere 60%-c speeds. If you do the actual math you work out that they appear to each other as moving away at something-like-80%c (that figure is totally made up, but you should get the idea anyway).

    --
    The World Wide Web is dying. Soon, we shall have only the Internet.
  14. Re:You can go almost 3 times the speed of light? by Ungrounded+Lightning · · Score: 4, Interesting

    So it would be safe to say that if nothing can travel faster than the speed of light, we could witness objects distancing themselves at almost 3 times the speed of light, considering the addition of each: ...

    Nope. You can't observe objects whose effective speed in your reference frame - combining inflation with velocity - is greater than C. The light from them never reaches you and light from you can never reach them. From your point of view they're "off the edge". It's as if you and they were each below the event horizon of a black hole relative to each other.

    (And sorry about an error in my previous post. The correct buzzword for the stretching of space is "inflation".)

    Or at least that's how I understand it. IANAP(hysicist)

    --
    Bantam Dominique roosters crow a four-note song. Once you've heard it as "Happy BIRTHday" you can't NOT hear it that way
  15. Re:Fallacy of the Big Bang Theory by TheRealMindChild · · Score: 4, Insightful

    To use your analogy, draw a grid on the balloon. When you inflate the balloon, the grid squares grow. But one unit is still one unit. If you had to measure around the balloon, it would be x squares, regardless the size. This is because we are IN the balloon so that is our frame of reference. You are measuring it outside of the universe, and it just doesn't work like that.

    --

    "When life gives you lemons, don't make lemonade. Make life take the lemons back!" -- Cave Johnson
  16. Re:Does anyone know ... by SpeedyDX · · Score: 4, Interesting

    I'll admit that I don't know what he's talking about. But it's not really a unique theory, in that there are other "fate of the universe" theories that predict that an end of one universe will bring the beginning of another. Or something along those lines. I had a lecture recently, where the professor talked about some of the wildly speculative theories of the future of the universe. It goes something like the following:

    The common view now is that the expansion of the universe is accelerating. As the universe ages, galaxies will be spread further away, and the amount of hydrogen and helium in any given galaxy will start to decrease to the point that it would be difficult to produce any stars. Galaxies will be full of brown dwarfs, white dwarfs, and black holes. Over a long time frame, galaxies will start shedding some of their stars, and black holes will decay via the process of Hawking radiation. Eventually, about a googol years from now, protons will start to decay. As the universe runs out of ways to generate energy, there will be parts of the universe, starting with the large empty gaps left behind by the expansion, that will undergo a phase transition. Once some pockets of the universe undergo phase transition, they will act as seeds that spread the transition to other parts of the universe (like the process of water turning into ice). When the phase transition is complete, the laws of physics will change drastically, and there may be a new seed for a new universe.

    As I mentioned earlier, it's WILDLY speculative, so don't take this comment as anything definitive. I just wanted to illustrate one of the many theories out there that share some of the most basic premises of the one in the story.

  17. universe stems from the collapse of a previous uni by zerkshop · · Score: 4, Interesting
    Hmmm, the universe steming from the collapse of a previous universe.

    Read this off http://en.wikipedia.org/wiki/Cosmogony the other day. Kinda similar idea in ways:

    In David Brin's book "Earth" it is suggested by a scientist, that in the moment of the collapse of an experimentally created black hole, it separates itself from this universe (like the separation of a child from its mother) taking with it all consumed energy which lies behind the event horizon. In his speculation the implosion of a singularity in this universe is followed by an explosion/expansion of a singularity in the child-universe, which then became independent of ours. Of course this causes an energetic underpressure with every collapse of a black hole, finally making this universe disappear when the last singularity implodes. It can be interpreted as a variant of the oscillatory universe theory.


    What if the big bang was just the explosion of all the crap that was in the event horizon of a black hole from a parent universe?

    Questions I have are:
    -How could there be such a massive black hole in a parent universe that our universe originated from? Subsequent universes would have smaller and smaller total mass/energy so it couldn't go on forever, and that would mean there was a starting point?
    -Wtf is the collapsing of a black hole? I thought they evaporated...
  18. Re:You can go almost 3 times the speed of light? by hmaon · · Score: 5, Informative

    http://en.wikipedia.org/wiki/Velocity-addition_formula or something?

  19. Re:Thanks for furthering your agenda! by HeronBlademaster · · Score: 3, Insightful

    Science and religion don't have to be mutually exclusive. It is entirely possible for God to obey the laws of physics (or create them, for that matter). Arguments about whether this theory or that law proves or disproves the existence of God are stupid - for example, it is possible that God decided to create man through evolution.

    I, too, know many scientists who are actively religious. Most of them say things along the lines of "my studies in field X have opened up to my mind the glory of God" or "the universe and its workings bear witness that we are God's creation".

    I'm not trying to say that science can prove or disprove religion (or vice versa)... that's impossible. All I'm saying is that if you believe in God, science isn't going to contradict that belief.

    And before I get flamed by people saying "you're just trying to explain away problems so you can still believe in God", it is my firm opinion that any valid belief in God will be consistent with science - any valid religion should be able to withstand that sort of scrutiny. As of yet, I personally have not come across anything scientific that cannot be reconciled with my religious beliefs. There is a world of difference between blindly explaining away problems and reconciling apparent issues.

  20. Re:Thanks for furthering your agenda! by Lijemo · · Score: 4, Insightful

    Considering approximately 5% of Physicists in the Unites States are religious I dont think they considered it a religous question.

    By "religious question", they mean, "according to our current understanding of the laws of physics, it is impossible, even in theory, to generate a falsifiable hypothosis about what happened before the big bang. Therefore, any discussion of what happened 'before' cannot be scientific, and hence is religions/philisophical discussion, not science".

    TFA is about some folks claiming "actually, we DO have a hypothosis that is, at least in theory, falifiable".

    "Science" is about studying things that are measurable, empirical, and/or falsifiable, whether one beleives that's ALL there is in the universe or not. "Religion" includes things that are not always empirical and falsifiable, and that cannot, even in theory, be scientifically tested. "Philosophy" includes all of the above and then some.

    Whether something is or is not science, and whether something is or is not real, are two seperate questions-- whether or not one feels both questions have the same answer.