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"Dark Flow" Outside Observable Universe

Posted by samzenpus on from the here-comes-galactus dept.

DynaSoar writes "NASA astrophysicists have discovered what they claim is something outside the observable universe exerting an effect on the observable. The material is pulling clusters of galaxies towards a region of space known not to contain sufficient matter to create the effect. They can only speculate on what the material is and how space might differ there: 'In these regions, space-time might be very different, and likely doesn't contain stars and galaxies (which only formed because of the particular density pattern of mass in our bubble). It could include giant, massive structures much larger than anything in our own observable universe. These structures are what researchers suspect are tugging on the galaxy clusters, causing the dark flow.'"

2 of 583 comments (clear)

  1. Gravity Leech by CuteSteveJobs · · Score: 5, Interesting

    > NASA astrophysicists have discovered what they claim is something outside the observable universe exerting an effect on the observable.

    The third episode of Brian Greene's "Elegant Universe" documentary miniseries on PBS said that while matter is confined to the known dimensions, its possible that gravity isn't and so can move through dimensions. The example they feel is that we could possibly detect the gravity of 'something' in another Universe by its gravity, even though we could never actually touch it. Wonder if this is it?
    http://www.pbs.org/wgbh/nova/elegant/

  2. Re:Flimflammery by Ambitwistor · · Score: 5, Interesting

    But I look forward to anything that seems to pin down the concept of 'dark matter'.

    This new theory isn't an alternative to dark matter.

    I'm not drinking his dark matter kool-aid until I can get a better explination for it than 'its invisible, supermassive, unobservable, and so totally there'.

    You believe neutrinos exist, right? How hard is it to believe that there's something else like a neutrino out there, but heavier?

    Dark matter-like particles have been predicted for decades. Within the Standard Model, there's the axion which is supposed to solve the strong CP problem in QCD. In the supersymmetric extension of the Standard Model, there is the neutralino. In fact, most theories beyond the Standard Model naturally require some heavy scalar particle which could be a dark matter candidate.

    Modifying gravity doesn't appear to consistently explain all the gravitational behavior we observe. The other alternative is modifying the source of gravity, i.e. there's something out there we can't see for some reason. And that does account for the gravitational behavior we observe.