Giant Sheets Of Dark Matter Detected 231
Wandering Wombat writes "The largest structures in the universe have been, if not directly found, then at least detected and pounced upon by scientists. 'The most colossal structures in the universe have been detected by astronomers who tuned into how the structures subtly bend galactic light. The newfound filaments and sheets of dark matter form gigantic features stretching across more than 270 million light-years of space — three times larger than any other known structure and 2,000 times the size of our own galaxy. Because the dark matter, by definition, is invisible to telescopes, the only way to detect it on such grand scales is by surveying huge numbers of distant galaxies and working out how their images, as seen from telescopes, are being weakly tweaked and distorted by any dark matter structures in intervening space.' By figuring how to spot the gigantic masses of dark matter, hopefully we can get a better understanding of it and find smaller and smaller structures."
So ... (Score:5, Funny)
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(probably misquoted from 2001)
Re:So ... (Score:4, Funny)
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Simulation error (Score:5, Interesting)
But how does one simulate gravity? It has to propagate in every direction at the something like speed of light or else -- god forbid -- information could travel faster than light. The whole concept of gravity, that every individual particle affects however slightly every other particle, is not possible to compute directly.
Now suppose the universe were simulated as a sparse matrix. Each cell could contain a gravity component that stored the aggregate gravity force from each of a certain number of directions (perhaps expressed as several point masses). Depending on the number of directions this would give highly accurate simulation at a small scale, where error is absorbed as noise, while being computable for the overall universe as a whole. However the error would magnify over great distances due to 'floating point' type errors accumulating.
What if what these people are seeing as dark matter is not matter at all, but simulation error. Perhaps even dark matter is related to a sparse simulation of the universe where intervening space is approximated by invisible masses that gravity affects but nothing else does. These mass would act to consolidate cells in the matrix to reduce the overall memory requirements.
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-God
Re:Simulation error (Score:5, Insightful)
"There is a theory which states that if ever anyone discovers exactly what the Universe is for and why it is here, it will instantly disappear and be replaced by something even more bizarre and inexplicable."
"There is another theory which states that this has already happened."
- Douglas Adams, HHGTTG
Re:Simulation error (Score:5, Insightful)
Another way to look at it: Every time a physicist describes a new effect with a formula, he has in fact given you a (mathematical) simulation of this effect. But that does not mean that this effect is a result from a simulation in the first place. And just because it is possible to think of a computational implementation that might behave similarly to an observed effect (which is a crude way of describing it mathematically if you can't do the maths) doesn't mean it is the result of a computational implementation in the first place. Assuming the Universe is a simulation does not add any insights, so why bother?
Also kinda reminded me of that old joke... An engineer thinks his equations are an approximation of reality but a Physiscist thinks reality is an approximation of his equations (meanwhile, the mathematician doesn't care....).
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But how does one simulate gravity? It has to propagate in every direction at the something like speed of light or else -- god forbid -- information could travel faster than light. The whole concept of gravity, that every individual particle affects however slightly every other particle, is not possible to compute directly.
If your hypothesis is correct then we wouldn't know the answer to this because we are not the ones running the simulation & whoever is obviously has technology & knowledge greater
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I would like to draw your attention to the eBay listing from which you purchased your universe. You'll notice that your warranty period has expired and God Inc. can no longer supply you with end-user support. If you would like to purchase a new universe please subscribe to the apropriate religion for your area.
Kind Regards,
God Inc.
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So they didn't really detect dark matter then (Score:4, Interesting)
So from what I gather, this is still more pie in the sky from dark matter proponents then? It has been argued that we don't need dark matter to explain the universe, and that a minor tweaking of Newton's law of universal gravitation would explain everything. As of yet, no one has truly detected/demonstrated dark matter particles.
If our fundamental laws are a bit off, then this bending/distorting of the light would be explained by that, and these dark matter constructions would be nothing but an illusion created by a mathematical error in our first principles. Therefore, until someone can actually demonstrate a dark matter particle, I am not jumping on this bandwagon. There are experiments underway to actually find dark matter, and for now I await their results.
Heh (Score:5, Funny)
a) Interesting
b) Not interesting
c) Both (don't you love quantum superpositions
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It's really probably just a point of view issue. After all, should there be 'dark matter organisms' of some kind, they'd be most likely supremely uninterested in the likes of us for anything other than curiosity value. However, we're rather interesting to us, being as we -are- us and we tend to be somewhat self-interested.
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Replicators... (Score:2)
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Another possibility is that the dark matter is nothing more than massive dyson spheres which surround all the stars that should be seen but can not
Makes for a great story and it would be really cool in reality. The problem is that even a dyson sphere would emit some form of radiation and, if there's a civilization or group of civilizations so powerful that they can create dyson spheres around the majority of the matter in the known universe, why haven't we seen them yet?
That being said, I find your idea interesting and would like to subscribe to your newsletter.
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Besides, even if we were just able to trade information that would be a worthwhile endeavor.
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We have people who spend lifetimes studying the works of mediocre poets from 500 years ago, are you seriously suggesting that there wouldn't be an interest in dark matter li
Re: Interesting / Not interesting / Both (Score:3, Funny)
Re:Heh (Score:4, Funny)
e) we won't know until "they" open the box
f) mostly harmless
Wait a second (Score:2)
So is light supposed to pass through dark matter? I mean, if there is so much of this stuff out there, it ought to be doing a lot more than just lensing light. It ought to be flat out blocking it. I mean, how does light just pass through matter (because dark matter is still considered matter), especially such huge objects with such large mass?
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Let me be the first to say (Score:4, Funny)
Soon all your adherents will have to move to studying a crazy theory that can't disproven, like String Theory!
I hear Hot Topic are already interested (Score:2)
Three times larger? (Score:4, Interesting)
Re:Three times larger? (Score:5, Interesting)
Re:Three times larger? (Score:5, Insightful)
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Re:Three times larger? (Score:4, Interesting)
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However, the Virgo supercluster has a whole lot of mass and a whole lot of gravity - enough to keep those galaxies in a cluster. Gravity is all that's keeping our solar system and our galaxy together, and they're considered considered structures in TFS.
Therefore, the Virgo su
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As the venerable sage, Grover, taught us all so long ago... "Near!" *bounce* *bounce* *bounce* *bounce* "Far!" *bounce* *bounce* *bounce* *bounce* "Near!" *bounce* *bounce* *bounce* *bounce* ...
It all depends on one's perspective.
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Sheets and Filaments (Score:4, Insightful)
Re:Sheets and Filaments (Score:4, Interesting)
However, galaxies also form 'sheets and filaments' at extremely large scales, as well; presumably, should these folks figure out how to find smaller structures, they should look somewhat more familiar.
Re:Sheets and Filaments (Score:5, Informative)
Second, my understanding is that dark matter (whatever it is) must be fairly weakly-interacting. The normal matter that we see aggregating into stars and galaxies interacts with itself (the particles bounce off each other, exchanging momentum, and also they repel each other at very short distances). This interaction, in addition to gravity, dictates the shapes we see for ordinary matter.
Dark matter doesn't interact strongly (with matter, and presumably with itself), so it aggregates differently. Imagine a cluster of dark matter that is being gravitationally collapsed: as the particles get closer to each other, instead of bouncing off each other (and thereby e.g. transforming their large-scale kinetic energy into heat), they 'pass through' each other (actually just pass by each other without scattering). This means that the matter will aggregate differently (the dark matter particles will mutually gravitate and orbit, but can't coalesce).
I'm painting a simplistic picture, but the point is that there are some fundamental differences about how dark matter interacts, versus ordinary matter. I believe the filamentary structure itself is an artifact of the universe's inflationary epoch, where massive expansion has amplified small-scale quantum fluctuations into the very large-scale distribution we now see.
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If I were feeling particularly sci-fi, I'd probably call it something like 'gravitational bleed-over from close neighboring dimensions'.
Re:Sheets and Filaments (Score:5, Informative)
No. When we try to predict the large scale distribution of matter using simulations [physorg.com] we get filaments.
Re:Sheets and Filaments (Score:4, Informative)
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pounced upon? (Score:5, Funny)
When LOLcats attack (Score:2, Funny)
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I can has cosmic string?
Proof of dark mater? We has it!
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Re:pounced upon? (Score:4, Funny)
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haha. I can has Nobul Pryzze?
The Rubber sheet analogy is WRONG!!! (Score:5, Interesting)
Current analogy of space time:
Take a rubber sheet and stretch it out over a frame and drop a bowling ball and marble and drop them on it, they push down and those dents are gravitation fields in space-time.
New more correct analogy:
Take a swimming pool and fill it all the way to the top with water. THEN, stretch a rubber sheet over it and seal it so that no water leaks out. Then put your bolwing ball and marble on it. Draw a line running between the bowling ball and marble, and take that cross section, note that the bowling ball and marble behave the same way at close distance like they do above, but when they are a opposite sides of the pool there is a slight "repulsive" effect. We call that Dark Energy! This repulsive effect also can help stick objects together applying a "pressure" against all the other objects, hence "Dark Matter". This effect will also affect light waves moving past it, hence gravitational lensing.
I'll take my Nobel prize now!
Re:The Rubber sheet analogy is WRONG!!! (Score:5, Funny)
Makes a lot of sense, though.
Re:The Rubber sheet analogy is WRONG!!! (Score:5, Funny)
And there's good reason. I grew up in Los Alamos, NM, and the best part about doing our swimming merit badges at the county pool was having the dad of one of the scouts -- a LANL physicist -- come early to pick up his son. He'd have all of us at the shallow end of the pool, and he'd be standing there holding a pendulum. Based on the pendulum's swing, he'd either yell "jump in!" and we'd all jump in simultaneously, or "get out" and we'd all get out simultaneously. After doing this for four or five minutes, the entire pool was sloshing back and forth, spilling over onto the deck on each end, getting everyone's towels wet if they weren't on the bleachers.
We thought it was awesome. The lifeguards didn't.
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It must be their rubber fetish.
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If you took all the matter in the universe and spread it out evenly, it would put the same "p
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You have 10 minutes.
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Well sorry guys, you're just too primitive to understand REAL physics. [uncyclopedia.org] Come back when you figure out where you're going to keep all the necessary penguins.
What? You don't even know about the penguins? Shocking! You'll never reach lightspeed the way you're going.
-Al Facentuari
Re:The Rubber sheet analogy is WRONG!!! (Score:5, Informative)
If dark energy sounds counter-intuitive: it should! Of course we don't really know what it is (yet), but the experimental evidence available thus far does not suggest that matter is repulsive at large distances, but rather that "something" fills spacetime and exerts an expansion force that is inversely proportional to its density.
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Spacetime is curved. So if you go far enough you'll come full circle where you started. All the matter in the universe is expandig outward, around the curve, until it comes back around itself in the "big crunch". The "big bang" is just all the matter in the universe bouncing.
So do I get my award? [isitbeertimeyet.ca]
You forgot spacetime dragging. (Score:2)
Thread Count? (Score:3, Funny)
Pounced upon? (Score:2, Funny)
It May Be Dark... (Score:2)
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Journal Reference (Score:4, Informative)
Giant what? (Score:2)
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Wow... (Score:2)
Really, I'm waiting for the face they find on one of the sheets.
Holly? is that you? (Score:3, Funny)
Holly: Well, the thing about a black hole - its main distinguishing feature - is it's black. And the thing about space, the colour of space, your basic space colour, is black. So how are you supposed to see them?
Rimmer: But five of them? Five massively collapsed stars, millions of miles across. How could you miss them?
Holly: It's typical, isn't it? You wait three million years with nothing, then five come along all at once.
cool (Score:2)
Gravity, it is wrong (Score:5, Interesting)
These are the reasons I work on a rank 1 field theory for gravity. For the details, read as much of this thread as you like: http://physicsforums.com/showthread.php?t=87097 [physicsforums.com] This is a LONG thread, more than 36k views, I make learn things along the way. Right now I am trying to find derive the Maxwell equations, and then the unified field theory, instead of using tensors. Quite a bit of fun. I have never had to write so many partial differential equations in my life.
Doug
the Shadows in Bablyon 5 ... (Score:2)
news update! (Score:2)
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But you are right, the Discovery Channel is mainstream and should definitely point out that the theory is controversial, and that observational support for the theory is just now trickling in, an no one has any idea what the heck it even IS.
Then again, this is a channel that regularly runs silly supernatural phenomena shows.
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Well, it it was warm, and fuzzy, and inside you... you probably would puke, so I guess these clauses are synonymous.
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Re:How can they tell this is caused by Dark Matter (Score:2, Informative)
Also, many of the measurements come from Hubble images, for which there is no atmospheric
Re:How can they tell this is caused by Dark Matter (Score:2)
What does "I would have thought" have to do with anything? Have you actually performed the calculations to work out how much lensing you'd expect to see from atmospheric effects and compare that with gravitational lensing?
Re:How can they tell this is caused by Dark Matter (Score:4, Insightful)
Atmospheric distortions are not consistent over time or different locations and those distortions do not "lense" like gravity does. Also standard astronomic technique is to have someone confirm your results with a different telescope, in a different part of the world.
It may not be dark matter, but it's not a smudge on their mirror either.
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But these "filaments" obviously aren't dark matter, they're warp-drive starship wakes (you know, the reason why the Federation imposed a Warp 5 speed limit).
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I agree that "dark matter" is not necessarily the cause. It could be a gravity wave or some other mechanism not associated with mass.
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Re:What if.... (Score:5, Informative)
But that's exactly how it's being treated by physicists. Here [wikipedia.org] are the very equations that physicists use to described the bending of spacetime by matter, dark or not.
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Am I smarter than a Scientist? (Score:3, Funny)
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Science is like an All-Star Game. The longer you've been top dog, the more likely you'll keep going to the show. Even after your skills decline and your only good for half the game and there's some rookie having a good year. If you try to bring up the rookie in a conversation, you'll get lots of blank looks and indignation to dare compare that new guy to the seasoned pro.
You want your theory to get respect, it either has to keep p