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Space Science

Necessity of Dark Energy Questioned 200

ttnuagmada points us to an article about scientist David Wiltshire's suggestion that theorized dark energy is not needed to describe the expansion of the universe. His work challenges assumptions made about the distribution of matter in the universe. Early solutions to general relativity were based on a "smooth distribution" of matter. Wiltshire's approach focuses on a "lumpy" dispersal, which more accurately fits data from modern studies. We have discussed other theories about dark energy in the past. Quoting: "Through observational projects like the Sloan Digital Sky Survey and the 2 Degree Field survey, we now have a much better picture of the large-scale structure of the universe and we know that galaxies are not uniformly distributed. 'Rather, they are in clusters sprinkled thinly in filaments and "bubble walls" surrounding huge voids hundreds of millions of light-years across,' Wiltshire says.
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Necessity of Dark Energy Questioned

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  • Skeptical (Score:3, Interesting)

    by Black Parrot ( 19622 ) on Saturday December 29, 2007 @11:27AM (#21849132)
    Mostly because of this:

    we now have a much better picture of the large-scale structure of the universe and we know that galaxies are not uniformly distributed. 'Rather, they are in clusters sprinkled thinly in filaments and "bubble walls" surrounding huge voids hundreds of millions of light-years across,'
    which we have already known for decades. He seems to think all the cosmologists who have signed on with the dark energy model are unaware of it.
    • Re:Skeptical (Score:4, Interesting)

      by sam_handelman ( 519767 ) <samuel DOT handelman AT gmail DOT com> on Saturday December 29, 2007 @11:47AM (#21849260) Journal
      Just because you know that something is happening doesn't mean that you account for it correctly or fully appreciate the implications; I'm a biologist, all the systems I deal with are heterogeneous, and it's always a major bitch to deal with. That said, I share your skepticism but this doesn't strike me as implausible - although I know essentially nothing about astrophysics.
    • Re:Skeptical (Score:4, Interesting)

      by Bill, Shooter of Bul ( 629286 ) on Saturday December 29, 2007 @11:48AM (#21849264) Journal
      From the article, it seems like he believes that this lumpiness was always there, rather than an earlier smooth distribution they've been assuming.

      While we might not ever know who is correct in this regard, I tend to prefer theories that don't have the need for dark energies, or matter,even if that really really screws up the equations we use to model the early universe. I think at some point every physicist just stares at a black board somewhere and says to himself " thats fucked up". We really have lost the elegance of the universe being a series of spherical shells rotating around the earth. Since that point we've managed to go through cycles of discovering elegance in the universe on a deeper level (the simple math of kepplar and Newton), and having to reject it for more complexity( Einstien's huge matrix of PDE's ). Let this be a lesson to us all, Don't let what should be prevent you from seeing what is.
      • > From the article, it seems like he believes that this lumpiness was always there, rather
        > than an earlier smooth distribution they've been assuming.

        The assumption of uniformity was an approximation intended to ease computation. The lumpiness has to have always been there or it would not be there now. It is postulated that it originated as quantum fluctations in the inflaton field.
      • by ceoyoyo ( 59147 )
        I don't know, I quite like my GPS, global communications and satellite TV (satellites are not possible with the ancients' spherical shells, overturned by Kepler and Newton, among others). I'm also fond of my electronics, which are made possible by quantum mechanics and special relativity. I'm having trouble thinking of an in-the-home consequence of general relativity at the moment, but there probably are some and are likely to be more in the future.

        The math might get harder, but the conception has gotten
        • No, I don't think the math can get any simpler than " Because God made it that way". I don't know what you mean my conception. take a look here [wikiquote.org] to see how "easily" the leading scientific minds understood ( if thats what you mean by conception) quantum mechanics. I'm just saying we live in a complex world, where things aren't as simple as we sometimes would like them to be. And I think as you pointed out, we are all better off for it.
        • by lgw ( 121541 )

          I'm having trouble thinking of an in-the-home consequence of general relativity at the moment,
          General relativity is needed to account for and adjust for clock drift in the GPS satellites. Without General Relativity, no accurate GPS.

          We're still at least one scientific revolution away from figuring out Mercury's orbit though, so we shouldn't feel too smug.
          • by ceoyoyo ( 59147 )
            Ah, thank you.

            There are STILL anomalies with Mercury's orbit?
          • We're still at least one scientific revolution away from figuring out Mercury's orbit though, so we shouldn't feel too smug.

            Uh, I'd say no, we've already figured out Mercury's orbit. But ok I'll bite; could you please cite this claim?
            • by lgw ( 121541 )
              Wow, you're right! I know I read this recently, but maybe it was a crank site or something (or a refereed paper, and therefore totally unavailable from the internet - why do public funds create the only store of knowledge that can't be Googled?).
    • by Cylix ( 55374 )
      Initially, I was a firm believer of dark matter expansion, but then I was hit with some major insight one morning while preparing breakfast.

      I started making pancakes and after I stirred the batter I noticed it was quite lumpy.

      I thought,"Eureka!, these same constants in my pancake batter help me better to understand the expansion of the universe!"

      Why it's so lumpy and not smooth at all... you would need to stir the universe for a billion or two more years before it's smooth.

      That my friends, is generally how
    • Re: (Score:3, Insightful)

      by John Hasler ( 414242 )
      He isn't saying that they didn't know about it: just that they didn't realize that they couldn't get away with simplifying their calculations by ignoring it.
    • Re: (Score:3, Interesting)

      by bigpicture ( 939772 )
      Exactly, even though we don't need to postulate the presence of "Dark Matter" to construct mathematical models of the expanding Universe, Einstein did not need the "ether" theory to construct "relativity" mathematical models that incorporated how light seems to behave.

      Still that does not prove that the "ether" either exists or doesn't exist. Just that it is not necessary to incorporate into a mathematical model, that will more or less express what is observed. But we still have the question of "zero point
    • which we have already known for decades. He seems to think all the cosmologists who have signed on with the dark energy model are unaware of it.
      We all know the Ideal Gas Law is incorrect, but that doesn't stop it from being used.
    • The math in Einstein's Cosmological Constant is highly suspect - but he was a pretty good physicist after all! I suspect Neal Turok of Cambridge has the right theory to end all theories - dark energy not required.....
    • It has really only been in the last five years or so that 2dF and Sloan Digital Sky Survey have let us establish, quantitatively, large scale structure on cosmologically significant size scales. The calculations get much more complicated to solve when homogeneity cannot be assumed, and I think most astronomers felt that the effects would not be this large. The truth is that most people working in the field do simply assume homogeniety, although perhaps not any longer.
  • by davidwr ( 791652 ) on Saturday December 29, 2007 @11:29AM (#21849142) Homepage Journal
    As Zapp Brannigan is in lukewarm discussions with the Neutral Planet president, the planet's scientists are holding a lukewarm debate over the possible existence of Grey Matter.
  • by russlar ( 1122455 ) on Saturday December 29, 2007 @11:42AM (#21849200)

    'Dark energy', which researchers have spent years trying to fathom, isn't necessary to explain our universe after all
    I don't know about those guys, but I usually do my best work after a cup of dark energy.
    • That's not dark energy. Dark energy does not participate in the electroweak interaction. Caffeine does.
  • by gyepi ( 891047 ) on Saturday December 29, 2007 @11:53AM (#21849302)
    ... can be accessed here: http://arxiv.org/abs/astro-ph/0510059 [arxiv.org] . A bit less recent (but even more readable) account is http://xxx.lanl.gov/abs/astro-ph/0310342 [lanl.gov] . The first linked article also mentions the approaches featured in the slashdot post (this is an ongoing business for a while). For starters the flow diagrams in the front pages describing the options might be particularly useful.
    • You picked on a particularly apposite article in your ref: http://arxiv.org/abs/astro-ph/0510059 [arxiv.org]

      from the article

      A central question for this approach is whether the feedback of non-linearities into the evolution equations can significantly modify the background, volume-averaged FRW universe and explain the accelerated expansion without the introduction of new matter, or a cosmological constant [13]. Key to this issue is that interpreting observations made on a particular scale tacitly also requires the s

  • by martyb ( 196687 ) on Saturday December 29, 2007 @12:09PM (#21849414)

    I did some googling and found David Wiltshire's home page [canterbury.ac.nz] which had links to his recent publications [canterbury.ac.nz]. That brought me to this full article [iop.org] which I am guessing is the one that corresponds to what was discussed in the original /. article here.

    I had a couple courses in astronomy and cosmology way back in my college days. That said, I can't begin to understand the details. I'm hoping someone with more knowledge and experience could elaborate. Is he really onto something that can dispense with the need for dark energy? And, if he is, am I correct in thinking this would be Nobel-Prize-Candidate-Worthy?

    • by SoberVoiceOfReason ( 1209826 ) on Saturday December 29, 2007 @06:08PM (#21852056)
      I am, for the record, a physicist.

      Here's the slightly more condensed version of this story. Einstein's theory of General Relativity (GR), which incidentally should the Law of GR by today's standards, gives a large set of differential equations to be solved. When this was first being applied to Cosmology in the 1920's, some basic assumptions about the universe had to made in order to solve the GR equations: it is isotropic (same in all directions), and homogeneous (uniform everywhere). They were primarily made for two reasons: mathematical expediency (this is the simplest sort of non-trivial universe you can have), and this didn't conflict with any observations at the time. Solving the GR equations with these assumptions gives fairly simple equations for the time evolution of the universe, leading to the standard model of Cosmology (called the Lambda-CDM model).

      As you would imagine, we have vastly more astronomical data now then we did in the 20's. To explain what we observe now, particularly the cosmic microwave background data, with these evolution equations we need to include a constant expansion term. This expansion would have to be from something uniformly distributed throughout the universe with negative pressure (very reminiscent of phlogiston, isn't it?) which we call "Dark Energy". So, based on current data and using the standard model to explain certain properties of the universe, it must consist of around 73% dark energy. Considering that this is the bulk of the universe and that, other than negative pressure, we have no idea what dark energy is or what it's properties are, this leads to a scientifically troubling state of affairs.

      However, modern sky surveys show that the universe is neither isotropic nor homogeneous. Instead there is a tendency towards a bubble-like structure with large empty spaces surrounded by thin "filaments" of galaxies. Even still, the standard model which requires dark energy ignores these differences. So, Wiltshire's contribution is to replace the standard assumptions with this "bubble" model, re-solve the GR equations, and get new equations for the evolution of universe based on it's *observed structure*, not some simplified model. In his new equations, dark energy is completely unnecessary. Since the structure of these "bubbles" is so large, fits to the data with Wiltshire's model are statistically just as good (actually indistinguishable) as the standard model, though as a caveat not all of the calculations have been done. Not only is Wiltshire's model much better from an Occam's Razor standpoint, it may actually solve some mysteries which the standard model cannot explain.

      I really can't go any further and still call this a "condensed" version with a straight face. In /. articles in other fields, I enjoy reading the commentary from experts, so here's an attempt to reciprocate. Hope this helped.
      • Very helpful.
      • by X_Bones ( 93097 )
        fantastic post. thanks.
      • by shadowofwind ( 1209890 ) on Saturday December 29, 2007 @11:17PM (#21853744)
        Why have they been wasting our time with this dark energy stuff for the last decade then? Why posit the dark energy if its only needed to fix a model that was derived with what has for a while now known to be a false assumption? It seems stupid. Instead of endless science articles on dark energy, instead there should have been articles on scientists working to solve pde's with really hard constraints that match modern astronomical observations. I don't get it. Is there more to the story?
      • it is isotropic (same in all directions), and homogeneous (uniform everywhere). They were primarily made for two reasons: mathematical expediency (this is the simplest sort of non-trivial universe you can have), and this didn't conflict with any observations at the time.

        Chemist here, so relativity isn't in my background, but, I remember in physics, doing the math which demonstrates that the stars are NOT equally distributed in the universe. If they were evenly distributed, light intensity would be unifo
        • Neither physicist nor chemist here. I guess you could call me an over-aged hippy with a fascination for some of the wow subjects of cosmology.

          I thought Hubble's expanding universe was the accepted basis of night time darkness, and that this explanation worked even in isotropic models, what with light cones and all?

    • Re: (Score:2, Insightful)

      by ErkDemon ( 1202789 )
      Nobel prizes are tricky. They're supposed to be for work that has some demonstrable practical benefit to mankind, so getting a prize for cosmology is difficult.

      Although the basic idea has been kicking around for a while (ahem), this work seems to put some numbers to it. Basically, current cosmology has tended to be founded on the idea of a nice simple universe, and when theory moved from a "constant, flat" universe to an "expanding bubble" universe, we still tried to maintain the idea that things were nic

  • by skeptictank ( 841287 ) on Saturday December 29, 2007 @12:11PM (#21849430)
    The fact that matter forms bubbles around the voids intuitively make me think that some force is pushing matter away from the center of each void. Perhaps the center of each void is location where mini-inflation events have happened and what we see today is the reslut of these events pushing shells of matter up against each other so that they form filaments and bubbles. Just a though, IANAP though.
    • by LionKimbro ( 200000 ) on Saturday December 29, 2007 @01:04PM (#21849796) Homepage
      I don't think so; My understanding is that it's the force of gravity.

      Here is the picture I have heard:

      The universe basically, from any point, stretches out in all directions. Gravity pulls a given lump in all directions at a given time. But local things are more powerful by the law of gravity, than far things. So things start lumping with their neighbors.

      Some lumpings occur earlier than other lumpings, which cause then to exert a stronger pull. These become the super-clusters [wikipedia.org] (joining points between filament; such as the Virgo Cluster. [wikipedia.org])

      So masses are basically pulled towards the closest super-cluster. But, ah-hah, some are pulled strongly by *two* super-clusters. These become the filament ("bubble walls.")

      If you download Mitaka, [nao.ac.jp] you can see a lot of these things first hand, with data directly from the Sloan Digital Sky Survey. [sdss.org]
    • by renoX ( 11677 )
      Let's take the analogy of 'soap bubbles': soap do create bubbles due to an attractive force (surface tension), there's no repulsive force in the center of the bubbles, so it can be the same for the universe..

      There are many things that we don't know about the universe, but you're idea seems needlessly complex.
  • If you cannot detect something at all with light or gravity effects, then it very likely isn't there. So, the whole dark matter thing is equivalent to calling in the gods to explain the unexplained with something even more inexplicable.
    • by mark-t ( 151149 )
      Well, bringing in gods to explain things isn't exactly working on the same playing field, as it's more or less understood that gods are supposed to be supernatural, which by its very definition can defy any explanations that would be consistent with nature.
    • Re: (Score:3, Informative)

      by vertinox ( 846076 )
      If you cannot detect something at all with light or gravity effects, then it very likely isn't there.

      Are you so sure there aren't other spectrum's yet to be discovered? We just might not have the technological know how to detect certain things. Doesn't mean they aren't there.

      Take radiation for example. You can't see it, can't taste it, can't feel it and without the proper tools you'd never know you're sitting in it.

      Same thing for "dark matter". Yes it could be a bunch of baloney, but its the only thing that
      • by geekoid ( 135745 )
        "Are you so sure there aren't other spectrum's yet to be discovered?"

        To date, that is the stupidest thing ever said on slashdot.
        • Yet this is exactly what dark matter would imply, matter or energy that cannot be detected in the EM spectrum. There may be a WIMP spectrum analogous to the electromagnetic spectrum, a gravity wave spectrum, there may be other interpretations like TFA that don't require this invisible mass, there may be other forces at work only noticeable on a galactic scale. His comment is no more or less stupid than the current use of dark matter in equations.
    • Re: (Score:3, Insightful)

      by Tablizer ( 95088 )
      If you cannot detect something at all with light or gravity effects, then it very likely isn't there. So, the whole dark matter thing is equivalent to calling in the gods to explain the unexplained with something even more inexplicable.

      I would compare it to just calling something "X". However, sticking the name "energy" or "matter" onto an unknown may be a bit presumptuous. But frankly, I can't find a better description that rolls off the tongue nicely in popular press science articles. You can't just kee
      • by cnettel ( 836611 )
        It's a matter of making the equations nicer. If it seems like matter in a significant way (i.e. gravity, possibly weak interactions, but no electromagnetic ones), it makes sense to call it matter and add it as matter in the equations, rather than adding it as an independent second-order correction or something that just happens to coincide...
    • by ceoyoyo ( 59147 )
      Well, we can detect dark matter by it's gravitational effects. That's how we know it's there.

      Which reduces your argument to "if you can't detect something with light (see it) then it's not there). Well, you can't see any subatomic particles with light!

      Now maybe you mean "if you can't detect something through electromagnetic interaction then it's not there." In that case neutrons and neutrinos don't exist either, as they have no charge, just like dark matter.
      • by nagora ( 177841 )
        Well, we can detect dark matter by it's gravitational effects.

        No: we can detect gravitational effects we were not expecting. Some people have suggested dark matter as an explanation. You're jumping the gun a bit.

        TWW

        • by ceoyoyo ( 59147 )
          All right, but clearly dark matter, AS POSTULATED has gravitational effects. We're talking about the dark matter hypothesis here.
      • Well, you can't see any subatomic particles with light!
        Wait.. photons aren't subatomic particles?
        • by ceoyoyo ( 59147 )
          Ever tried to look at a photon with light? The little buggers go right through each other. Refuse to bounce off at all.

          I said you can't see any subatomic particles with light, not that you can't see any subatomic particles.
    • by John Hasler ( 414242 ) on Saturday December 29, 2007 @05:28PM (#21851722) Homepage
      You confound dark energy with dark matter. They are very, very different concepts. This paper deals with dark energy.
    • by jbengt ( 874751 )

      If you cannot detect something at all with light or gravity effects, then it very likely isn't there

      So I guess that I should forget all about radioactivity, what with all the weak forces and strong forces that govern subatomic particles rather than light and gravity?

    • If you cannot detect something at all with light or gravity effects, then it very likely isn't there. So, the whole dark matter thing is equivalent to calling in the gods to explain the unexplained with something even more inexplicable.

      You really have it backwards. Dark Matter was postulated precisely to explain gravity effects that have been observed. Someone that found out that radium created heat and killed things around it might postulate that there was some form of energy causing this and call it

    • If you cannot detect something at all with light or gravity effects, then it very likely isn't there.
      Um, the whole point of dark matter is that it has detectable gravitational effects. (As does dark energy, which this article is about.) Why do you think the theory was invented?
  • Does this have any implications for long-term scenarios, such as the "Great Rip" ..?
  • It seems like physicists LOVES complex answers, but life prefers the simplest possible solution.
    • Re:KISS (Score:4, Informative)

      by ceoyoyo ( 59147 ) on Saturday December 29, 2007 @02:48PM (#21850632)
      Actually, physicists hate complex answers. The overwhelming guiding principle of physics is to describe the universe with as few axioms and rules as possible. Leon Lederman (former director of FermiLab) has a neat little passage in his book about the goal of physics being to produce the ultimate t-shirt: everything that's needed to describe everything written on a shirt. And not one of those XXXL shirts couch potatoes wear.

      If this guy is correct then it's a nice advancement of cosmology. From what's described in the article it appears that at least the sign of the effect in his argument is correct. You hear a LOT of these claims though, that explain one or two observations and conveniently omit a hundred or so others.

      And the article is terrible. It sets this up somehow as a battle between this guy and Einstein. Einstein postulated a cosmological constant (the equivalent of dark energy) because he wanted a STATIC universe and then retracted it when Hubble came up with experimental evidence that the universe isn't static at all. Einstein's theories have nothing to do with whether matter is smoothly distributed or not.
  • If the universe is not "flat" then taht could explain apparent acceleration. Need a test to distinguish this from a repulsive force.
  • The wave front of 'now', laying down the universe in the direction of positive time, is like a rubber sheet that has been held back in areas of higher density matter, less so in areas of less denstiy. And thus the sheet would become more distorted as the distribution of matter in the universe changed.

    Then much like adaptive optics removes the distortion caused to light by a wiggly atmosphere, there must be something like 'adaptive chronics' to remove the distortion caused to light by a wiggly time, and und

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