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Science

CERN Begins New Antimatter Gravity Experiments (phys.org) 90

An anonymous reader quotes a report from Phys.Org: We learn it at high school: Release two objects of different masses in the absence of friction forces and they fall down at the same rate in Earth's gravity. What we haven't learned, because it hasn't been directly measured in experiments, is whether antimatter falls down at the same rate as ordinary matter or if it might behave differently. Two new experiments at CERN, ALPHA-g and GBAR, have now started their journey towards answering this question.

After months of round-the-clock work by researchers and engineers to put together the experiments, ALPHA-g and GBAR have received the first beams of antiprotons, marking the beginning of both experiments. ALPHA-g began taking beam on October 30, after receiving the necessary safety approvals. ELENA sent its first beam to GBAR on July 20, and since then the decelerator and GBAR researchers have been trying to perfect the delivery of the beam. The ALPHA-g and GBAR teams are now racing to commission their experiments before CERN's accelerators shut down in a few weeks for a two-year period of maintenance work.

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CERN Begins New Antimatter Gravity Experiments

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  • by jimtheowl ( 4200185 ) on Friday November 02, 2018 @10:49PM (#57584356)
    ".. whether antimatter falls down .."

    Or maybe it falls up?
    • Re:Or maybe (Score:5, Insightful)

      by Roger W Moore ( 538166 ) on Saturday November 03, 2018 @02:01AM (#57584764) Journal

      Or maybe it falls up?

      This experiment will check this but it is overwhelmingly likely to find that anti-matter falls just like matter. If it doesn't then things as fundamental as special relativity and quantum mechanics are in for a very significant rewrite.

      • Why? Quantum mechanics says nothing about gravity. And special relativity is so simple, it shouldn't really bea problem to extend it.
        I guess Newton's law of gravity would just work with negative masses. And special relativity? Maybe an absolute value of the mass has to be taken somewhere, otherwise I don't seea problem?
        • Re:Or maybe (Score:4, Interesting)

          by SqueakyMouse ( 1003426 ) on Saturday November 03, 2018 @05:08AM (#57585024)
          Gravity doesn't come into special relativity anywhere. General relativity is the most accurate model for gravity we have. If we're modelling the path of a small particle (which antimatter is in our experience) in free fall then its mass isn't really important in GR. It follows the same geodesic through curved spacetime regardless. Massive objects like the sun and earth significantly curve spacetime, but the mass of the antiparticle will have negligible effect whatever sign you choose to put on it if it is small in magnitude. If the sign of the mass mattered then photons and photons have zero mass, then which way would they fall? In practice they fall down, following the geodesic GR describes.
          • Yeah but photons only have zero rest mass, they still have relativistic mass.

            Also anti-matter does not have negative mass. Matter with negative mass is called exotic matter, and may or may not exist at all.

            • No, photons have no mass. "Relativistic mass" is a non-physical concept that is extremely misleading so much so that even Einstein himself warned against it.

              As for anti-particles falling up you really have two choices. If they have a negative mass then we break special relativity because we know that matter+antimatter release energy proportional to their mass but with a negative mass this would be zero. The alternative is that they have a positive mass but fall up because antimatter couples differently t
    • Photons fall down. Their antiparticle (photons) falls down. It would confuse the crap out of people if we started seeing anything fall up, and GR would need rethinking.
      • Photons don't have an anti particle.
        It might be a neat trick to somehow says: a photon is its own anti particle, but in the long run it makes no sense at all.
        Suddenly in nuclear physics we have anti gamma decay ... wow, never heard about that in school ...
        A photon hits an electron and it "quantum leaps" into a higher "orbit" ... now it drops down and emits an anti photon ... oops. Or was it the other way around? Sorry, no idea which modern school suddenly uses this model of "a photon is its own anti matter

        • Why does it upset you so much? If I said zero was its own additive inverse, would this anger you? When we talk about particle-antiparticle pairs generally do you think it's more convenient or less convenient to include photons pairs?
          • When we talk about particle-antiparticle pairs generally do you think it's more convenient or less convenient to include photons pairs?
            No idea. Why would it be a question of convenience?

    • Re:Or maybe (Score:4, Informative)

      by Koen Lefever ( 2543028 ) on Saturday November 03, 2018 @01:16PM (#57586384)

      ".. whether antimatter falls down .." Or maybe it falls up?

      There does exist an hypothesis by Marcoen Cabbolet [vub.ac.be] that antimatter will fall up (in an environment of matter such as on earth, antimatter would fall down in an antimatter environment according to this theory) which will be tested by those CERN experiments :

      https://onlinelibrary.wiley.com/doi/abs/10.1002/andp.201000063 [wiley.com].

  • by Anonymous Coward

    I happen to be pro-matter, you insensitive clod!

  • This seems extraordinarily unlikely to produce any surprises. Is there any theory or experiment in matter with an opposite electrical charge has anti-gravity? They're distinct fundamental forces.

    • by phantomfive ( 622387 ) on Saturday November 03, 2018 @02:28AM (#57584792) Journal
      It's one of those things, "You don't know until you try." I think everyone has a low expectation of finding that anti-matter behaves differently with gravity, but it's an experiment we can do, so why not do it?

      We know there is something missing here (that is, why is matter so much more common than anti-matter?) so we need to keep experimenting, process of elimination, until we find the answer.
      • > but it's an experiment we can do, so why not do it?

        That's a reasonable question. It's a profoundly expensive experiment in terms of electrical power, engineering and scientific time, and the exclusive use of one of the most demanded scientific resources in the world. So those are good reasons to weigh the potential scientific benefit of the results, and include the chance of any usable results.

        • > but it's an experiment we can do, so why not do it?

          That's a reasonable question. It's a profoundly expensive experiment in terms of electrical power, engineering and scientific time, and the exclusive use of one of the most demanded scientific resources in the world. So those are good reasons to weigh the potential scientific benefit of the results, and include the chance of any usable results.

          Umm... what crucial experiments are being blocked by this? They do have a whole organization devoted to scrutinizing experimental proposals to determine the best use of the LHC. Did you not know that?

          In the six years now since discovering the Higgs boson, "all" the LHC has done is confirm the standard model in various ways. No new physics at all. But confirming the standard model is a Good Thing, it can only be confirmed by testing it. This is another experiment in this line of tests of existing physics.

      • It's like the gold-foil experiment done about 105 years ago that showed us that "solid" items aren't really all that solid.

    • by DanDD ( 1857066 )

      Gravity might not be a fundamental force of nature at all, only a side effect of other things.

      Google 'entropic theory of gravity'.

    • Re:Unlikely to work (Score:5, Interesting)

      by serviscope_minor ( 664417 ) on Saturday November 03, 2018 @08:13AM (#57585402) Journal

      This seems extraordinarily unlikely to produce any surprises. Is there any theory or experiment in matter with an opposite electrical charge has anti-gravity? They're distinct fundamental forces.

      The quantum mechanical model of antiparticles is that they are normal particles which are travelling back in time. It's a bit nonsensical from a non quantum mechanical persepective and it's not time travel as you might think of it. But if you time-reverse an electron and calculate how it behaves it behaves like that particle we can observe known as the positron.

      It makes other things neat. For example accelerating electrons emit photons, or the emission of a photon causes the electron to accelerate. So far so good. If you take the time travel model then annihalation is an example of that. An electron and positron meet and get drstroyed emitting a photon. Or an electron amits a photon and changes direction in time rather than space and goes backwards as a positron. From a forward time point of view that looks like an electron and positron coming togther.

      Pair production and annhilation just becomes a single electron whizzing round in circles in time.

      IOW in the rather peculiar world of quantum mechanics a lot of observable things are modelled to within measurement error as time-reversed particles. Sure it's a mathematical abstraction but it works.

      Quantum mechaices has no model of gravity. If an electron travelling forwards in time falls into a graviy well what do you think a time-reversed one might do? GR says it has mass so it's attracted and falls down. That seems to be the most popular view. But QM says it's time reversed so... what?

      The answer is we won't know for sure.

      • no you're just referencing what is called the Feynmanâ"Stueckelberg interpretation of anitmatter. It's a useful model for property prediction BUT it is not considered "true", antimatter is not considered to be going backwards in time, in bulk it is subject to the same time evolution of entropy as ordinary matter.

    • Every means of testing GR (and any other scientific theory) that can be tried, should be tried. Regardless of result we increase our knowledge - we may (with small probability) overturn the expected result, or we add yet another method of confirming our best model.

    • there are many other differences than just charge in antimatter. Isospin, parity, baryon or lepton number, strangeness are reversed too.

    • In any case, it's a rare physics experiment that doesn't produce some new insight, even if it has nothing to do with the original aim.
  • by Anonymous Coward

    >ALPHA-g began taking beam

    That sounds pretty dirty.

    But not as bad as ELENA doing it to GBAR.

  • by fahrbot-bot ( 874524 ) on Saturday November 03, 2018 @01:37AM (#57584712)
    [ removes sunglasses ] ... anti-climatic.

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