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New Boson Appears In Nuclear Decay, Breaks Standard Model (arstechnica.com) 71

An anonymous reader shares an excerpt from an Ars Technica article: In November, people started polishing a Nobel prize for a group of physicists who seemed to have found new boson. [...] This result has been cooking for quite some time. The first experimental results date back to 2015, with publication in 2016. Essentially, the scientists took some lithium and shot protons at it. By choosing the energy of the protons correctly, Beryllium in a particular excited state is produced, which quickly decays back to lithium by emitting an electron and a positron. Now, in these experiments, energy and momentum must be conserved. The lithium nucleus is quite a complicated beast and can rattle around in all sorts of ways, meaning that the electron and positron have a certain amount of freedom in the direction in which they are emitted. By contrast, the researchers observed that some electrons and positrons seem to be correlated in their emission direction. Computer modeling confirmed that this was not due to their equipment and could not be explained by the nuclear physics of beryllium, lithium, or any known background process. The correlation could, however, be explained by a new boson that decayed by emitting a positron and an electron. As long as the production was reasonably inefficient, and the mass was about 17MeV (million electron volts), then the data was beautifully explained.

It is always possible to extend our models of the Universe to include new particles, including new bosons and new forces. But, it isn't good enough to match a single experimental result. You have to match all of them. The end results are particles that look a bit like a backyard panel-beating job. Yeah, the paint matches, but you can still see the wavy patches where the filler hasn't been sanded flat. The problems arise from the mass -- 17MeV is at the low end of well-explored territory. So, why did this story flare back up again? A new paper, by the same scientists that published the beryllium results. This time, they measured electron-positron emissions from excited helium. Same experiment, different atom, but the same 17MeV boson was found. The new result is pretty strong evidence.
"If the experiment has some kind of systematic error in it, then we would expect that the 'new' particle would change mass between helium and beryllium," adds Ars Technica. "It doesn't, though; the results are very consistent between experiments. That means that if it is an error, it is an unfortunately flukey one."
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New Boson Appears In Nuclear Decay, Breaks Standard Model

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  • they were fields now, not particles?
    • Probably.

    • by PolygamousRanchKid ( 1290638 ) on Friday December 20, 2019 @05:31PM (#59542964)

      they were fields now, not particles?

      It's strings . . . all the way down.

    • Same thing. (Score:4, Insightful)

      by BAReFO0t ( 6240524 ) on Friday December 20, 2019 @06:32PM (#59543120)

      Fields of wavefroms, to be precise. Not wave nor particle. Both terms are too flawed analogies.

      Basically, every hill in a wave is a particle, super-weird universe rules edition that barely resembles either.

      • You ought to make it clear that this is your theory, perhaps pulled straight out of your ass, or perhaps with some actual education behind it, though there was no evidence of that in your post. In fact, nobody knows for sure what a particle is, or whether the universe is made entirely of fields according to quantum field theory, or really very much at all about what gives rise to fundamental particles. We know how they behave, not what they are, and anybody who pretends otherwise is a charlatan.

        • But how they behave is what they are, isn't it? I think we just fail because we try to make analogies to the particles from our own experience, from our macroscopic world.

          I think the connection between classical mechanics and quantum mechanics is as follows:
          Classical particles are in quantum mechanics what happens in interactions. We see particles because they interact with photons. Only the photons tell us where the particle is and how it moves. And only constant interaction with a large number of photo
          • But how they behave is what they are, isn't it?

            No. Both a leaf and an iron ball fall to the ground when not supported. Is a leaf therefore an iron ball? What rubbish.

          • I'm happy for you that you have it all sorted out. I look forward with breathless anticipation to your paper. I will file it under "C" for crank. Thick file.

            • You spread a lot of insults, but I agree.
              As physicists we think we understand chemical elements because we know how it's built out of protons, electrons and neutrons.
              The understanding of quantum particles looks to me more like we were understanding chemical reactions, but didn't know what atoms actually are. It's sufficient to work with it, but we still don't really know where matter comes from, right? We still don't really know what it is made of.
              I'm not writing papers on this, my level of understanding
              • so we really need to leave this question of particle-wave dualism open?

                Nobody has the slightest clue what causes wave/particle duality, or if it is even a thing.

                • But the formulas describe very well what is happening. And I think what I wrote down describes what they say: or imagination of particles is wrong. It's an image coming from macroscopic objects in our daily world, but elementary particles aren't anything like solid spheres.
                  • Where you say "the formulas" a physicist would say "standard model". Might as well learn something about it. [wikipedia.org]

                    Philosophizing about physics only counts when you can do the math, otherwise it is armchair science. Fun for you, not informative for others. BTW, you're basically heading in the right direction, you just don't know anything. (And neither do I, but I'm ahead of you...)

                • I assumed that the old idea, that wave function describing the probability to find a point particle at a certain location, was off the table. Bell's theorem and the experiments called quantum teleportation seem to exclude that.
                  To me this seems to indicate that it must be a reaction probability of an extended object, not a location probability of something small.
                  • Bell's theorem provides a test to determine whether particles obey classical or quantum mechanics. As conformed by numerous experiments, particles obey quantum mechanics, not classical mechanics. Or to put it simply: the weirdness is real. Wave functions are far from off they table, rather they are the legs of the table. Wave functions -> quantum field theory -> standard model.

                    • Wave functions are great. What I was talking about, what is off the table, are their interpretation as statistics over all possibilities of a determined system.
                      I was just reading a bit, and I think I'm just following the Copenhagen interpretation. Just that they speak of observations, which collapses the wave function. I instead speak of interaction with a photon. I think this is what they mean, and what is more clear.
                      Well, I'm sure quantum mechanics has moved ahead since then, but I don't want to bother
                    • If you don't want to bother with the equations then don't try to reason about it. It is impossible to reason about quantum mechanics without knowing the math. I'm sure the physics community appreciates having a lay audience, but I seriously they appreciate having the internet fill up with random claims based on little more than gut feeling. Instead, just sit back with popcorn and watch the physicists at work. Politely ask questions. Clearly label any fanciful speculation as such.

                      Example: photons must be dis

                    • I am a physicist. I know several of the equations, I just won't specialize in this field.
                      And did I anywhere not write "I think" when I was speculatiing?
                    • Oh. You must think that I'm the same as the one who wrote the first post that you replied to.
            • This is just about the 100 old question of particle-wave dualism, not about the fundamentals of matter
              I think the general model of light having particle and wane properties, and matter too, is just not satisfying, and it actually made it harder for me to understand quantum mechanics.
              That's there my idea looks better to me. Redefining what a classical particle is makes everything more clear.
              Well, also I think I did not have a good introduction to quantum mechanics when I studied, maybe others do that bet
    • Fields = particles (Score:5, Informative)

      by Roger W Moore ( 538166 ) on Friday December 20, 2019 @07:12PM (#59543214) Journal
      A particle is just the smallest possible excitation of a field. Some fields require a minimum energy to excite them to the next available energy state - this is why the Higgs boson has a mass, it takes 125 GeV of energy to excite it. The EM field does not which is why photons have zero mass.
    • they were fields now, not particles?

      Can fields be "shot"? Do they "collide"...?

  • Flukey boson (Score:5, Insightful)

    by jfdavis668 ( 1414919 ) on Friday December 20, 2019 @05:17PM (#59542940)
    Probably the best name since the strange quark.
    • We need a lot more data before this gets accepted. Several years ago there was a similar flap about a 17-keV neutrino [scitation.org] that was claimed to be confirmed several times before being debunked. I suspect the same will happen with this since it too is in a well-explored region and there is no explanation as to why it would not have been seen before.
      • Could easily be that the mechanism that creates it is tougher to get to than just smashing things together at 17MeV. We really only have the realm of particles creatable by smashing shit together really hard mapped out in any detail, entirely possible there's other factors in play like "smashing them together and holding the parts in place for a moment" or "only emitted from the decay of a proton into an electron and positron in a very particular way" that could explain this (and open up new physics for th
        • >won't happen because physics is infinite

          Do you have anything to base that claim on? It's definitely larger than we currently understand, but I've never heard any scientist make the claim of infinite. In fact I've only heard anything remotely like it from a few philosophers and mystics that claim that we actually create new physics by looking for it, rather than discovering something that has always been at work behind the scenes.

          • The book The Secret History of the World explores this idea in detail and makes an interesting case that I will extreme summarize:

            The observer paradox is a small manifestation of something fundamental to the nature of the universe.

            The universe is conscious in some difficult-to-fathom way and takes extreme interest in observers.

            Humans are special because we were created out of the universe's desire for observers.

            Thus almost everything in the rational world actually has underpinnings of shared belief. It's t

            • It's an interesting idea, but how would you ever hope to establish if it were true or just a fever-dream? There's a reason science has been so successful - it's methodology offers a way to strip away most of the capacity for self-deception that comes standard with a human mind - and in the process revealed just how immense that capacity truly is. I'm firmly convinced that there are important aspects of the universe that may be forever beyond the reach of scientific analysis, but when considering them it's

              • Its funny because there are two levels to your reaction. There is the deeper subconscious which reacts sympathetically and the conscious mind reaction, which is mildly uncomfortable and needs to be placated with rational things.

                most esoteric teachings are merely designed to move the unproductive thinking mind out of the way. internal realizations come on their own.

                youre on your way with the 'humans lie to themselves' idea. even as you wrote it you probably realized it applies to you, but rationalized it do

                • As a point in fact, I'm both a mystic and an engineer (unlicensed). I'm extremely aware of the tension between rationality and more subtle truths. But I see far, far more people who talk as you do fall into believing feel-good nonsense, than ever actually approach deeper truths.

                  Humans are not rational creatures, and anyone claiming otherwise is fooling themselves. And in fact pretty much everything that makes life worth living is irrational - it's our irrational animal nature that grants us the capacity

                  • this is all true. it takes a serious commitment, but also the ability to risk your beliefs being torn down and shattered, repeatedly.

                    many new agers are outright evil, insane or corrupt. these have always been the dangers of seeking a new thing.

                    the first step is to take no one's word for it. the second is to absorb information with a truly open mind. many things that siund like trite cliches reveal their meaning after years of study and even failure.

                    anyways theres no end goal, no dramatic magic powers, and

            • The human-waking dream now includes Newton ... perhaps a gateway to the conscious universe!

              Great idea! With all the 8yr old girls in the world believing, then why aren't we hip deep in real unicorns and my little ponies?

        • I'm not saying that it cannot be true only that it seems very unlikely to be true. Yes, you can certainly concoct fanciful theories to allow it to exist but those theories will need to squirm quite a bit to hide it from all previous experiments which would be sensitive to it resulting in theories with quite a bit of added complexity. Using Occam's razor the simplest explanation is then that this result is wrong. Of course, Occam's razor is not always right but it's right often enough that I would want to s
        • We really only have the realm of particles creatable by smashing shit together really hard mapped out in any detail

          The problem with this is that, fundamentally, the particle interactions of "smashing shit together really hard" are exactly the same as "smashing them together and holding the parts in place for a moment". Also if ANYTHING is "emitted from the decay of a proton into an electron and positron" in ANYWAY (even particles we already know about) it would be a Nobel prize winner immediately because protons, electrons and positrons are stable as far as we know. In fact, the lifetime limit for protons is over 10E34

      • by Mal-2 ( 675116 )

        Maybe all particles "discovered" that turn out to be misinterpreted data should be classified as "bogons" and ranked in order of bogosity.

  • by Gravis Zero ( 934156 ) on Friday December 20, 2019 @05:23PM (#59542950)

    It was already fucked up already and you know it. This just means we're getting closer to the truth and closer to formulating a more perfect model.

    • > closer to formulating a more perfect model.

      Still called the Standard Model.

      Standard Model wins again.

      Standard Model deniers btfo.

    • by gweihir ( 88907 )

      I agree. Still, this may be a systematic error somewhere. Would not surprise if some Physics PhD student made a coding error in some late-night coding session and screwed up some library or the like. This needs independent verification. Of course, that may take a while.

  • by Lije Baley ( 88936 ) on Friday December 20, 2019 @05:24PM (#59542954)

    This is why you need a beryllium sphere!

  • by cruff ( 171569 ) on Friday December 20, 2019 @05:38PM (#59542980)
    With new release 2.7.1.8.2, new boson loot boxes are now available in 16.84 MeV.
  • Not being a physicist, how does this break the standard model?
    • by Sique ( 173459 ) on Friday December 20, 2019 @05:45PM (#59542996) Homepage
      Because the Standard Model has no place for another boson. The Higgs field was expected to allow for the unification of the electroweak and the strong force. A new boson/force field doesn't have any observed yet properties or any that are missing in the Standard Model. It's basicly an "We didn't order it!"-particle.
      • by quenda ( 644621 )

        That doesn't sound like "broken" to me. Over-dramatic?
        It's not as if anybody thought the standard model was a complete description of nature.

        Relativity was almost a complete start-over from Newtonian, so I suppose you could call that a "break". Are people suggesting this may cause the standard model to be completely replaced in the same way? Or just hyperbole?

        • It's more like how a model should have predictive power, like the periodic table.

          In this case, the predictive power didn't work, and the reality can't be slotted into an empty spot.

          That's my IANAP understanding, don't take it as gospel.

        • by Sique ( 173459 ) on Saturday December 21, 2019 @02:39AM (#59543974) Homepage
          Actually, Relativity was nota complete start-over from Newtonian. It might be introduced in school that way, but it has a long pre-Einsteinian history.

          Hints for Relativity predate it for more than two decades. In the Maxwellian equations for Electrodynamics from 1879, the (vacuum) speed of light was already introduced as a constant, hinting at a non-Euklidian spacetime. The first experiments to prove or to contradict the constance of the (vacuum) speed of light were performed in 1881, the famous Michelson-Morley experiment. When this experiment (and subsequent experiments) showed that the speed of light is independend of the speed and direction of the motion of Earth, Hendrik Antoon Lorentz with the help of Henri Poincaré introduced the Aether theory of light in 1893, which is mathematically equivalent to the later Special Relativity theory. And until today we use the Lorentz transformations and the Lorentz factor in Special Relativity, predating Albert Einsteins famous paper by more than a decade.

          When Albert Einstein in 1905 published his first essay in the "Physikalische Annalen", he tried to solve a known problem, thus his article was titled "On the Electrodynamics of moving bodies" (Zur Elektrodynamik bewegter Koerper). It was about an apparent contradiction in Maxwell's theory. The electrodynamic interaction between a magnet and a conductor (e.g. a piece of copper wire) should only be dependend on the relative motion between both bodies, but it seems as if there is an asymmetry: Moving the magnet relative to the fixed conductor causes an electric field of a certain energy and thus induces a current within the wire, but moving the wire relative to the fixed magnet does not cause an electric field, instead it causes an electromotoric force without an associated energy, but with the same effect on the current in the wire.

          Until Henri Poincaré's death in 1912, there was a bitter fight between him and Albert Einstein, who really came up with the idea of Special Relativity.

          General Relativity is a generalization of Special Relativity (hence the name), as it does not only consider bodies at constant speed, but also accelerated bodies. That it supersedes Newtonian Physics is more ore less a side effect. It is not a clean-sheet start-over from Newtonian, it just happens to contain Newtonian Physics as a special case for low relative speeds and low masses.

    • It doesn't have a 17MeV boson, or a reason for there to be one.

    • I read this article, https://en.wikipedia.org/wiki/... [wikipedia.org], and it seems like this discovery just fills in a blank on the standard model. There'd been something missing and it looks like maybe they found it.
    • It doesn't "break" anything, it just seems that way to idiots who don't understand that science is based on uncertainty. They think that the existing models purports to describe everything in the Universe, when actually it only describes those things that it describes.

    • by fazig ( 2909523 )
      'Break' is a strong word. And you're likely to find such strong words in journalism, which tends to be biased towards sensationalism.

      Did Maxwell's equations break Newtonian Physics?
      Did Einstein's Special Relativity and subsequently GR break either Maxwell's equations and by extension Newtonian Physics?

      Three big milestones (Newton, Maxwell, and Einstein) in our understanding of natural laws.
      The newer models showed that the old ones did not tell the entire story. So we expanded on the old models. But th
      • >Did Einstein's Special Relativity and subsequently GR break ... Newtonian Physics?

        ABSOLUTELY!

        Why do you think they only teach three of Newton's six Laws of Motion in science class today? Half of Newtonian mechanics was proven to be flat-out *wrong*.
        Though GR should be more specifically compared to Newtonian gravity - which was also proven flat-out wrong, but was kept around as a vastly simpler approximation sufficiently accurate for most purposes.

        In this case though, I think we're *potentially* talking

        • by pjt33 ( 739471 )

          Why do you think they only teach three of Newton's six Laws of Motion in science class today? Half of Newtonian mechanics was proven to be flat-out *wrong*.

          In modern terminology, the 4th law says that inertial frames are equivalent, which still holds in special relativity. The 5th law is redundant. And the 6th law is explicitly an approximation.

        • by fazig ( 2909523 )
          Still don't you think 'break' is a too strong word?
          I suppose it depends on the semantics here, whether breaking means becoming utterly useless, or being still good in parts, or something else. Here I assume that the laymen understand it as the former, but that is an assumption.
          You say yourself here that we're still teaching those three laws (sometimes called axioms), while the other two (as far as I know) are no longer taught. Doesn't that mean that Newtonian Physics are at least in part not broken?

          I se
          • Rarely does anything become utterly useless when it breaks. Especially so when it comes to scientific theory, which by its nature was quite successful at accurately predicting lots of things in order to become accepted in the first place - and their predictions are no less accurate for those things once broken.

            I think what is generally meant (by scientists) by a theory being broken, is one of two things:

            a lesser break (or flaw) - "theory does not predict these observations, therefore repairs are needed".

  • Hot Damn! (Score:5, Insightful)

    by Bonker ( 243350 ) on Friday December 20, 2019 @05:53PM (#59543010)

    This is one of those... 'we've got something we really didn't expect. We've gotten it a few times now, and don't really know what to make of it. It suggests the absurd. Can anybody see any flaws in our methodology?' moments where everyone involved is very nervous about having to redo ALL their math to try to incorporate something NEW.

    And yeah, the standard model is pretty fucky. A physicist at UT Austin once explained it to me as 'well, basically we just multiplied out all the particles we had into a matrix. It describes the phenomenon but offers very few insights into it, '.

    • 17MeV is at the low end of well-explored territory

      Hardly 'absurd'
      • 17MeV is at the low end of well-explored territory Hardly 'absurd'

        The absurd part is that in this well-explored territory, no one ever found this particle before. It's like walking into your living room and finding a window in the wall that you've never seen before. You've been in the room a thousand times and know it really well, yet there's this major feature of the room that you've somehow never noticed, despite years of looking.

        • by Mal-2 ( 675116 )

          But if it's a horribly low-probability path, perhaps you'd only see it if you walked into that room at exactly 7:52 pm on a Sunday immediately following the second full moon in a month, and shouted "Show me the money!" Basically, if you don't have reason to suspect the chance is there, you don't really have a lot of incentive to repeat the experiment enough times for it to happen.

        • Comment removed based on user account deletion
  • One with a different energy, of course.

    But AFAIK, photons can decay into an electron-positron pair and those can annihilate into a photon. Obviously, they'd be correlated, given they are basically "the same electron" "bouncing in the time direction", mathematically speaking.

    I need to read TactualFA! On MY Slashdot? I'll be damned!

    • by Zarjazz ( 36278 ) on Friday December 20, 2019 @07:03PM (#59543198)

      Photons wouldn't explain the results because they can have any energy so wouldn't cause a correlation spike at any particular energy value. That would typically be explained by some unforeseen fault in the experiment, a problem with their methodology, some decay process or interaction they didn't factor into the calculations, a particle with that mass.

      Because they have done this experiment twice now with completely new equipment and a different decay process and yet still see the same result would rule out the first explanation and almost certainly the second. Ever since the original result no one has found a fault in their calculations (yet) which is why all the media about a possible new boson particle.

      However the question now remains why have no other experiments seen this same result. Is it because they haven't been looking in the right energy ranges? Is it really a new particle or just some new phenomenon we don't currently have an explanation for? As the saying goes, extraordinary claims require extraordinary evidence. It will need verification from other experimental teams before anyone starts handing out Nobel Prizes.

  • The LHC cost 10 billion, and this experiment did what thousands of scientists and billions of dollars couldn't do.

  • by sheramil ( 921315 ) on Friday December 20, 2019 @07:26PM (#59543246)

    the scientists took some lithium

    Keep taking the pills, guys.

  • No, it didn't "Break the Standard Model".

    It became the Standard Model.

  • Same team (Score:5, Interesting)

    by aepervius ( 535155 ) on Saturday December 21, 2019 @01:10AM (#59543896)
    There are plenty of flukey result which could not be reproduced afterward and for which nobody care much because they came from the same team and were systematic error at the laboratory over many experiment. One I can remember the most was histamine water memory. Look I am not seeing this is the case here, but my excitation is near zero as long as it is the same team confirming they see the same result in different experiment using a similar protocol in their own lab. Until there is a different team to confirm this is a fluke.

"The whole problem with the world is that fools and fanatics are always so certain of themselves, but wiser people so full of doubts." -- Bertrand Russell

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