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Deflating Claims That ESA Craft Has Spotted Dark Matter 85

Yesterday, we posted news that data from the European Space Agency's XMM-Newton spacecraft had been interpreted as a possible sign of dark matter; researchers noted that a spike in X-ray emissions from two different celestial objects, the Andromeda galaxy and the Perseus galaxy cluster, matched just what they "were expecting with dark matter — that is, concentrated and intense in the center of objects and weaker and diffuse on the edges." StartsWithABang writes with a skeptical rejoinder: There seems to be a formula for this very specific extraordinary claim: point your high-energy telescope at the center of a galaxy or cluster of galaxies, discover an X-ray or gamma ray signal that you can't account for through conventional, known astrophysics, and claim you've detected dark matter! Only, these results never pan out; they've turned out either to be due to conventional sources or simply non-detections every time. There's a claim going around the news based on this paper recently that we've really done it this time, and yet that's not even physically possible, as our astrophysical constraints already rule out a particle with this property as being the dark matter!
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Deflating Claims That ESA Craft Has Spotted Dark Matter

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  • by bradley13 ( 1118935 ) on Saturday December 13, 2014 @04:40AM (#48588323) Homepage

    I'm just a lowly engineer, but for me "dark matter" has never passed the sniff test. It's a kludge factor thrown in to make equations balance. And a kludge factor so huge that "dark matter" is supposed to outweigh all of the observable matter in the entire universe. The only reason this doesn't sound ridiculous is because we've been hearing it for so long.

    If you need a kludge factor that big, it is far more likely that the equations are wrong.

    There are other possible explanations. For example, if the speed of light were a function of space and time [wikipedia.org], then the situation changes completely. All observations of the distant/ancient universe are suddenly thrown into question; the interactions within that distant/ancient universe were also different from what we see locally, today. This particular theory (variability of C) is one that crops up periodically, most recently in 2013 [livescience.com]. It is difficult to prove, but really, it's no more unlikely than the existence of huge amounts of dark matter that stubbornly refuse to interact with the known universe.

    • by Anonymous Coward on Saturday December 13, 2014 @05:22AM (#48588369)

      There's a few scenarios were evidence of dark matter has been observed. All you have to do is smash two galaxies together [wikipedia.org] and the non-interacting dark matter separates from ordinary matter. The separated dark matter then causes a gravitational lensing effect, which is displaced from the ordinary/visible matter in the galaxies.

      It's possible that a modified theory of gravity (e.g. MOND [wikipedia.org]) could still account for the behavior, but it puts requirements on the theory that (I am told) are difficult to accomodate. Sort of like how the Higgs boson discovery at 125 GeV puts requirements on supersymmetry that are hard to accomodate--it's still possible, but much less appealing.

      This particular theory (variability of C) is one that crops up periodically, most recently in 2013 [livescience.com]. It is difficult to prove, but really, it's no more unlikely than the existence of huge amounts of dark matter that stubbornly refuse to interact with the known universe.

      Considering it's 100% likely that there are particles which don't interact electromagnetically or via the strong force (i.e. neutrinos), dark matter isn't a stretch at all. It's strictly required to exist in most beyond standard model theories. And since the standard model sucks at explaining some observations (e.g. the maginitude of CP violation), we have reason to believe there's more physics going on than what we can currently observe.

      • Smashing two galaxies together is not that easy :)

        The thing that bugs me most with dark matter is that it is seemingly absent on small scales (e.g. the solar system), yet somehow shows up in immense quantities on large scale. It just doesn't add up to me.

        • by Anonymous Coward on Saturday December 13, 2014 @06:47AM (#48588461)

          You're already been given one clear proven kind of "dark matter"; the neutrino. This is incredibly difficult to spot; interacts very little; is almost absent from normal ("small scale") physics and yet it's existence is clear and well evidenced. It's really not that big a stretch that there is something else.

          The thing is that if there isn't someone has to come up with really clever expansions for a whole load of other stuff. This would not be nearly the first time a physicist was wrong. In fact a truly dedicated physicist should try took be wrong several times a day. However strange and contrary to instinct would rule out relativity and quantum physics; in fact most of what we know to be true about the world. You have to find something more than gut instinct to oppose this with.

        • by Dutch Gun ( 899105 ) on Saturday December 13, 2014 @06:56AM (#48588469)

          It just doesn't add up to me.

          "Not adding up" was the reason dark matter was invented. ;)

        • by wonkey_monkey ( 2592601 ) on Saturday December 13, 2014 @07:39AM (#48588543) Homepage

          Compared to the galaxy as a whole, the solar system is very dense. That would (or so something I read said) made it harder to detect because the gravity of all the regular matter in the immediate neighbourhood swamps the signal.

        • by EdgePenguin ( 2646733 ) on Saturday December 13, 2014 @12:54PM (#48589517) Homepage

          Although you make the common error of thinking that the only requirement for dark matter is galaxy/cluster dynamics, you have stumbled on an interesting question; why is the Milky Way dynamically dominated by dark matter but the solar system is not. Fortunately, its easily answered.

          Dark matter makes up most of the mass of galaxies, including the Milky Way. One of the best bits of evidence our own galaxy has dark matter is the rate at which M31 (Andromeda) is approaching us. The expansion of the universe drives galaxies apart, so the combined mass of the local group (basically just us and M31, M33 is next in mass but its much smaller than M31) has to be enough to pull the two galaxies together such that you would see M31 at the present distance and velocity. This is called the local group timing argument, and it shows that there is much more mass than can be accounted for with visible matter in the local group. This is not the only evidence for dark matter, but it along with the milk way rotation curve makes us confident that there is substantial dark mass in our galaxy.

          As to the reason you don't see much dark matter impacting on the gravity of the solar system: that comes down to geometry. dark matter is arranged in a spheroidal halo whereas most of the visible matter is in a thin disk. The dark matter halo is much less dense in our galaxy than visible matter (and especially so in our solar system as for obvious reasons its got a higher density than the galaxy as a whole) but for large enough $r$, proportionality to $r^3$ always wins out over proportionality to $r^2$, which is why dark matter dominates the outer part of the rotation curve whilst at the same time being irrelevant for the internal kinematics of our solar system.

          • [......] dark matter is arranged in a spheroidal halo whereas most of the visible matter is in a thin disk.

            That sounds unlikely. How did it happen?

            • by EdgePenguin ( 2646733 ) on Saturday December 13, 2014 @05:23PM (#48590915) Homepage
              Another good question. Gas can lose energy because it interacts with other radiation and matter, but dark matter cannot. The total angular momentum of the system must always be conserved, and a disk is the lowest energy configuration that does this. Both dark matter and gas start off in the spheroidal arrangement, and then the gas the cools to form a disk.
              • So does that mean dark matter is effectively a cloud of gas and its particles are constantly in rapid motion, but constrained in a spheroid by gravity? Or am i completely failing to grasp how it works?

                • Thats right. Spheroidal systems in astrophysics are generally held up against gravity by such random motions, whereas flattened systems tend towards being help up by ordered rotation.
      • Wait Just a Second (Score:2, Insightful)

        by Anonymous Coward

        Time and time again when the subject GLobal (not) Warming comes up all we hear from the would be Slashdot PhDs is "Peer Review! Peer Review!"

        But somehow now it's just fine to dump all over the findings of a group of scientists...real scientists, with degrees and shit, not just a Slashdot handle and low UID) and not a mention of peer review in sight.

        Fucking hypocrites, the lot of you.

      • The very gasses that the say separated out from the galaxies have the ability to cause the bending of light also. It is just like refraction through a medium like glass, but there is no solid boundary that it passes through. Instead it has a varying index of refraction which leads to the very same bending of light that has been attributed to the dark matter that they keep saying is there. The bullet cluster isn't quite the nail in the coffin that the news will put it out as.

        To me it sounds like a little cir

        • Gasses do indeed have mass, and can cause gravitational lensing. However, we can detect them through other means, and there just isn't enough mass there by a long shot. In any case, the Bullet Cluster is an example of lensing happening where there is little or no gas. Gravitational lensing without matter we can detect does strongly suggest matter we can't detect.

          Your second paragraph seems a bit incoherent, and ignores the fact that dark matter and dark energy are different things. We know there's da

    • by wonkey_monkey ( 2592601 ) on Saturday December 13, 2014 @07:34AM (#48588537) Homepage

      I'm just a lowly engineer, but for me "dark matter" has never passed the sniff test.

      And yet it seems like most physicists - of whom I am not one - seem to think it is the simplest explanation for what we see.

      The quote in the summary sums up, for me, the somewhat churlish attitude some people adopt when faced with dark matter:

      There seems to be a formula for this very specific extraordinary claim: point your high-energy telescope at the center of a galaxy or cluster of galaxies, discover an X-ray or gamma ray signal that you can't account for through conventional, known astrophysics, and claim you've detected dark matter! Only, these results never pan out;

      Of course they have never panned out - so far. If one of them had panned out, we would have stopped looking. Your keys are always in the last place you look.

      Photons started out their theoretical life as a kludge factor to solve the ultraviolet catastrophe (great band), and people were appalled by the idea.

    • I'm just a lowly engineer, but for me "dark matter" has never passed the sniff test. It's a kludge factor thrown in to make equations balance. And a kludge factor so huge that "dark matter" is supposed to outweigh all of the observable matter in the entire universe. The only reason this doesn't sound ridiculous is because we've been hearing it for so long.

      If you need a kludge factor that big, it is far more likely that the equations are wrong.

      There are other possible explanations. For example, if the speed of light were a function of space and time [wikipedia.org], then the situation changes completely. All observations of the distant/ancient universe are suddenly thrown into question; the interactions within that distant/ancient universe were also different from what we see locally, today. This particular theory (variability of C) is one that crops up periodically, most recently in 2013 [livescience.com]. It is difficult to prove, but really, it's no more unlikely than the existence of huge amounts of dark matter that stubbornly refuse to interact with the known universe.

      Yes, but Variable c would open up many, far far more dire problems than Dark Matter.

      Scientists aren't suggesting that dark matter is definitely a particle. That's one guess, but it could very well be some artifact of some underlying physical reality that we just don't understand yet just like you suggest. But the speed of light isn't variable.

    • by Anonymous Coward

      I'm just a lowly engineer, but for me "dark matter" has never passed the sniff test. It's a kludge factor thrown in to make equations balance.

      There are about 1e10 neutrinos flying through each square centimeter cross section of your body every second.
      The chances of one of them interacting with your body is about once every 30 years or so.
      Even our best neutrino detectors can capture only a small fraction of them every day (at best a few 100).
      Given that, is it really hard to imagine there could be an even weaker interacting particle, that for current practical purposes was undetectable?

      The reason we stick with dark matter as the best model, is beca

    • Dark matter is NOT a kludge factor. You should not make such strident pronouncements about a subject you clearly know nothing about. The existence of dark matter is not controversial amongst astrophysicists.

      The fraction of deuterium produced by primordial nucleosynthesis, and the ratio between the acoustic peaks in the CMB, both require ~83% of the mass of the universe to be something other than baryons. Given that these two indicators are from entirely separate epochs (about a hundred seconds after the big

  • by Anonymous Coward

    Moreso for spamming unreadable crap.

  • by Anonymous Coward

    And magnetic monopoles, when I was younger. I spent a fascinating class arguing with an MIT physics professor. His claim that "they must exist becase it makes Maxwell's Equations more electant and symmetrical" was like the the mathematics professor's claim that probabilities always being positive meant something subtle about how the universe works, and wasn't an artifact of how we chose to *)describe* probability.

    I loved a great deal of both their teachings, but sometimes very smart people get very silly.

  • As I understand it, dark matter is our best guess at explaining an observation of mass via gravitational lensing and other effects where there is not enough visible matter to account for it. What I never see mentioned, and perhaps there's a good reason for this unbeknownst to me, is the possibility that this phenomenon exists independent from any matter, just as we do observe it. It seems to suggest that without matter space time would be flat across the entire universe. Why isn't it possible that space
    • by Greyfox ( 87712 )
      Sure, dark matter is just a question mark, really. We're observing something that doesn't fit in with our understanding of how gravity works. We have not observed what's causing it, but based on how we observe gravity working, we're building a model of properties this unknown effect must have. At the point we're at with our understanding of it, we may as well have called it "magic." That would be a much more honest name for the level of understanding we have of it. But it's awfully hard to get a research gr
  • Dark matter is a hypothesis. So far it fits the data, but new data may force modification or even rejection of the hypothesis. The reason it's an exciting area of research is exactly because physicist acknowledge that its an imperfect hypothesis.

    All science works this way. The luminiferous aether hypothesis was not foolish or worthless - it was valuable science because when tested its limitations led to new insights. And while the materials science metaphor was eventually judged inappropriate, if "empty

    • Actually, from what I recall, dark matter, and dark energy, are just place holders for stuff that generate effects that we can measure but yet do not have an explanation for, we have a few hypotesis, some more likely than others, but no proof for any of those yet.
      Basically we KNOW that our models are incomplete and that are stuff out there causing galaxies to rotate at a different speed than it supposed to be just by visible matter and that are other stuff making shit fly appart faster, but we don't have
  • by RevWaldo ( 1186281 ) on Saturday December 13, 2014 @11:10AM (#48589105)
    ~ What do you think professor? Does it prove the existence of dark matter?

    ~ This? Oh, bless your heart, no, my young assistant. This is just chatter from some ancient interstellar civilization. Trade negotiations if I'm not mistaken.

    ~ Gosh, you're right, professor, I should have realized that myself.

    ~ Yes, completely useless I'm afraid. Fear not, we'll find the evidence someday.

    .
  • by EdgePenguin ( 2646733 ) on Saturday December 13, 2014 @12:36PM (#48589441) Homepage

    A lot of engineers and computer programmers seem to think that dark matter is just a fudge to make rotation curves fit, and that they being smarter than astrophysicists can see through this obvious error. This is profoundly irritating

    Dark matter is required to explain the ratio of elements produced during big bang nucleosynthesis, the acoustic peaks of the cosmic microwave background, gravitational lensing, cluster dynamics, the Local Group timing and finally, yes, rotation curves. In the last application (which is bizarrely considered to be the only place dark matter is invoked), the most popular alternative hypothesis MOND, which has no theoretical basis and exists purely to fit rotation curve data, doesn't actually do that well on modern rotation curves [harvard.edu].

    You cannot offering any critical comment on dark matter that won't make you sound like a terminal case of Dunning-Kruger to an astrophysicist unless you understand all of the things I mentioned above.

"An idealist is one who, on noticing that a rose smells better than a cabbage, concludes that it will also make better soup." - H.L. Mencken

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