Roger,

Yes, that is what I am arguing. But the essence of the argument is that there are no separate microscopic and macroscopic realms with sharply different organizing principles. Such a separation in the conventional theory creates a major boundary problem, for which conventional theory does not have a clear and consistent explanation.

In contrast, in my picture, deterministic causal equations apply at all levels - no boundary is present, and therefore no boundary problem. The only thing that is required for a complete theory are the equations governing self-organization of microscopic fields into solitons or domains with quantized spin (in units of h-bar), which act in certain respects as particles. Everything else follows from that. There are no quantum paradoxes required.

I hope you will read my essay in more detail. I have also proposed straightforward experiments that should clearly distinguish my picture from conventional theory. For example, the 2-stage Stern-Gerlach experiment is presented in many quantum textbooks (including Feynman's Lectures on Physics) as a model of quantum measurement, and generations of students believe that this experiment was done early on. However, I can't find any evidence that it was ever done; only Feynman admitted that it had not been done, at least by 1964.

I noticed that your essay talks about randomness and causality, and I may have comments after a more careful reading.

Alan

Dear Susanne,

Thank you for your careful reading of my paper and your kind comments.

The theoretical physics community is in denial about the shortcomings of quantum theory, believing that it must be correct because there is a mathematical formalism. I am reminded of the story of "The Emperor's New Clothes," in which the emperor's new suit is in fact non-existent, but (almost) everyone claims to see it, because the authorities have convinced them that it is visible to anyone who is not stupid. The power of intimidation by authorities should not be minimized.

Alan

Dear Alex,

I sent some earlier versions to several journals. The papers were rejected without review, with a polite comment that this was not the correct journal. This is the standard "crackpot letter," even though I am a credentialed physicist (PhD from Harvard). I also presented posters at several meetings of the American Physical Society (which does not screen papers). I had a number of interesting discussions with experimental physicists, but unfortunately theoretical physicists uniformly refused to engage in discussion. It seems that experimentalists regard QM as a useful tool, while theorists view QM as religious doctrine which is not to be questioned.

Alan

Gary,

Thank you for your comments.

Regarding your question about the nonlinear wave equation responsible for soliton formation, I'm not sure. A few years ago I looked at relativistically covariant gauge-invariant potentials (something like the electromagnetic potentials), and did some Matlab simulations, but they didn't seem to have the right properties, so I put this aside.

Regarding your comment about FQXI allowing amateurs and professional to interact, there actually seems to be rather little of that. It is mostly amateurs talking to amateurs, and professionals to professionals. I have been posting essays in FQXi since 2012, and have yet to get a serious question from a theoretical physicist.

Alan

Dear Christophe,

My alternative picture of QM seems like something that could have been proposed back in the 1920s, but I have looked thoroughly in the old literature, and I can't find any evidence that a consistent wave-based picture of this type was ever considered.

Alan

Max,

Thank you for your comment about the Stochastic Electrodynamics theory of Marshall and Santos. I followed some of that work some years back, and corresponded briefly with both Marshall and Santos.

Alan

6 days later

Dear Alan Kadin,

Great essay, it starts with a clear and concise idea "it is argued here that pictures of real objects moving in real space provide the proper basis for physics, and that mathematics merely provides quantitative models for calculating the dynamics of these objects."

Your conclusion that "pictures should guide physics" and more detailed comment "As a consequence of elevating abstract mathematics and denigrating realistic pictures, exploratory theoretical physics has wasted decades wandering in the desert, caught up in a tangled web of selfdeception. By removing the blinders and allowing ourselves to be guided by realistic pictures, we may find a path toward the promised land of understanding physical reality."

Your approach to the essay contest is very close to my own. Although some of the structures I use do not quite match yours, I agree completely with your comment "A model that yields a valid result may be assumed to be correct, even if other explanations may also be valid."

I hope you get a chance to have a look at the models in my essay as your comments would be very interesting.

Your essay deserves a high rating and I wish you the best of luck.

Regards, Ed Unverricht

    Dear Mr. Unverricht:

    Thank you for your encouraging comments. I have not yet had a chance to read your essay carefully, but I glanced at it quickly. I noticed that you address the Standard Model of Particle Physics. One of the things that I did not have space to address in my essay (although I have previously) is that all of the fundamental "particles" in the Standard Model can be represented as rotating vector fields carrying spin, except for the Higgs Boson, which alone is supposed to be spin zero. Within my picture, all spin-zero particles must be composites of two particles with opposite spin, similar to a meson which is a quark-antiquark pair. That would suggest that what has been detected experimentally may not be the desired Higgs Boson. So experiments are essential in physics, but the interpretations of the experiments are equally important. Simply obtaining agreement with the standard theory is not a proof that the theory is correct.

    When I have time, I will read your essay more carefully, and I will post a comment if I have any questions.

    Thank you again, and good luck with the competition.

    Alan Kadin

    Sorry but the fact you are "credentialed physicist" is no evidence that your ideas have any kind of validity, and actually they haven't. Bureaucracy turned out to be more often than not a good filter of competence in science, and, as I explained, scientific research cannot survive without any proper filter whenever a collective dimension of research and/or a discernment of useful public money spending are needed, but failures in the current bureaucratic system of credentials distribution may occur as well. I have extensively studied another case of a highly "credentialed physicist" with nonsensical ideas that even became popular and the author mistaken as the genius of the century in the French public, due to the lack of understanding of physics from the part of editors of scientific popularization magazines.

    Now the fact is, the wide acceptance of standard quantum theory is not the result of any dogmatism, even though I do observe that some dogmatic behaviors, an effect of inertia, also occur in the academic community, namely as concerns the details of undergraduate curriculum, the precise way in which fundamental theories are introduced, and due to which I found the necessity to leave the system and thus virtually throw my painfully acquired math PhD to the toilet in order to develop my work in this field. Nor is it due to any kind of social acceptability of the "shut up and calculate" attitude and the current formulation of physics by Hilbert spaces, or any comfort with the lack of classical realism, which are absolutely not the case, as we do find lots of high level physicists with the very same loud discontent which you express about this current state of science, and thus dedicating their research to their dream of restoring such a classical realism, especially in the form of Bohmian mechanics.

    No. As incredible as it may sound, the rude fact is that the acceptation of quantum physics with all its non-realistic abstraction was forced by the physical reality itself upon our rebel community of usually classical realist physicists, most of whom remain desperate about this discrepancy of Nature's verdict with their deeply rooted philosophical expectations. And notwithstanding this body of knowledge, many of them are still pushed by their philosophical prejudices to keep dreaming that this verdict of Nature may be not final and that an opposite one should be expected for some utopian future. The real situation is that they found themselves obliged to accept quantum theory by its incredibly amazing success in correctly predicting the results of about any physical experiment that may be thought of, and by the evidence they do have of how desperate is any try to explain these experimental results in "realistic" manners.

    In this circumstance, any idea, as what you suggest, that the true laws of physics would be so totally different from accepted quantum physics that local realism would be true (so that, for example, quantum computers would be fundamentally impossible), is absolutely ridiculous, because, logically, it is just absolutely impossible for any 2 so widely different theories to have any sort of accurate agreement on any significant range of predictions. Such widely different theories might accidentally coincide on 2 or 3 cases of experimental results ; however such agreement would quickly fail as soon as things are checked in significant accuracy and other experimental conditions are considered, and this idea of accidental coincidence of some range of predictions between widely different theories is obviously unable to account for the amazing systematic accuracy of the verifications of quantum physics in millions of widely different experiments that have already been made until now.

    Now what I just explained here, and this unfortunate phenomenon of abundance of so many people who cannot admit scientific results but wrongly and confidently accuse the physics community of dogmatism and so on due to their ignorance of the current state of science, is things well-known by the physics community. That is the phenomenon of crackpot. Please document yourself (my text first linked above is just an example, many other scientists such as John Baez wrote about it as well) on what "crackpot" means and how scientists have very legitimate reasons to be upset and just reject without further discussion these popular expressions of proud ignorance, this popular cult of stupidity, this mental pollution that is the worst enemy of the progress of science. (On a related aspects of things, that article is also interesting).

    Alan,

    I am amused regarding your interpretation of amateur and professional. I guess everything is perspective. I was thinking of YOU as the pro and myself as the amateur. I also consider Dr. Gibbs and Dr. Klingman to be professionals. I suspect that I get more out of these interactions than you guys:-)

    Best Regards and Good Luck,

    Gary Simpson

    Alan,

    A brilliant analysis, well presented. I see it's flushed out some Lord Kelvin believers; "physics is all sorted so we can stop thinking." They clearly have. I still see the problem as how to speed intellectual evolution. Certainly pictures not just numbers should resonate.

    To that end I've built dynamic physical models, very much on our common these, and just posted a short video; http://youtu.be/KPsCp_S4cUs

    I suspect if the complete solution is presented well in the right medium we may succeed. Shifting the paradigm may be impossible, but I conceived a plan 40 years ago to place everything around the paradigm in a new inertial rest frame which evolves (sneaks) away from the old beliefs leaving them behind! It will take a team, and it seems you're key (planned departure 2020). I suggest that may finally be just 'crazy enough' for Neils Bohr!

    I have no compunction applying top marks to your essay but do suggest neither of our pictures is yet quite complete. I hope you may find additional value and insight in some aspects of a recent co-authored paper recently rejected which reproduces QM's predictions in full with a quasi-classical model, identifying the specific false assumptions.

    https://www.academia.edu/9216615/Quasi-classical_Entanglement_Superposition_and_Bell_Inequalities._v2

    Please do also comment on the video and paper.

    Excellent job, and hope your essay hits the top.

    Peter

      4 days later

      Alan, (I am really sorry about the length of this, but give it a chance)

      I just opened your essay page this morning and it said different things from what I had expected.

      (Not being a Physicist) It would be remiss of me to say technical things about your model. But perhaps I can comment on a theme that motivates (you can correct me here, if you wish) your essay. It is your claim that..."On the contrary, it is argued here that pictures of real objects moving in real space provide the proper basis for physics, and that mathematics merely provides quantitative models for calculating the dynamics of these objects..." (Btw, I did read the whole thing.)

      As I went through various observations I could make regarding your main thesis, it became evident that those would be the same that I made yesterday on Ken Wharton's essay page. Being the author of it, I felt sanctioned to copy certain parts of it here.

      "...perhaps physicists' intuition ought to be given greater weight... The reason for that is that in the absence of patterns, paradigms, structures, etc. that make sense to us and which we can manipulate in our minds, physics may become a (proverbial) victim of its own success.

      Here is how it would work. Say that things get so esoteric that only computers can generate theories and proofs (by now you know where this is heading), and humans can no longer see why any of it makes sense, nor can they follow the proofs. Computers may propose new theories, but those will still have to be tested against the real world. Given that there can be a myriad of computer-generated theories, and that we will not know which ones to follow up on first, it will present us with various quandaries. Experiments take time, and may only get more expensive in the future. We will not be able to afford to test all of the new theories, nor be able to pick only viable ones for experimental confirmation.

      Unless we come up with a ToE to program the computer with before switching to autopilot, we will become dependent on the computer to divine the correct theory solely from mathematics. I am extremely skeptical about any claims that "mathematics alone" can figure out the universe without checking with it (the universe), and I am not getting on an airplane without a human pilot sitting somewhere near the front.

      I would also like to draw your attention to a part of Sophia Magnusdottir's essay. You may have already seen it. She proposes that an "analog" method might obviate the need for mathematics in at least parts of physics, perhaps even those not well matched to known mathematics. An example might be adiabatic "computing" already in use. This could certainly work in principle, but since you will still have to measure at least the relative "scale" between the two systems (one being the subject, and the second being the solver) to get the result or prediction you are after, it may not provide all the tools to do physics.

      Your central point appears to be unassailable. For at least any foreseeable time horizon, mathematics will be indispensable for physics."

      I think all readers would benefit from going to Ken Wharton's essay page (and, for that matter, to Sophia Magnusdottir's).

      This next part is solely to follow up on your response to Ed Unverricht:

      Alan M. Kadin replied on Mar. 8, 2015 @ 21:33 GMT: "...Within my picture, all spin-zero particles must be composites of two particles with opposite spin, similar to a meson which is a quark-antiquark pair. That would suggest that what has been detected experimentally may not be the desired Higgs Boson..."

      Alan, you have some company in your contention that the putative Higgs Boson might not be what it is purported to be. Now, you may not want to be associated with some of them, but they deserve a second look. Already, on Wednesday, 04 July 2012 13:41 (European time), almost immediately after the big Higgs announcement, Peter J. Carroll (on www.specularium.org/component/k2/item/58-higgs-or-not) made this statement (among others): "This particle could well consist of a composite entity like a top-antitop meson rather than a truly new fundamental particle."

      Now, I have to warn you, you will be turned off by Carroll's other interests - but you ought to look for the "diamond." Carroll has some interesting physics, and less interesting "magic."

      Now, for a more comprehensive argument "against the Higgs" you ought to look up Eli Comay's webpage(s). At the very least, you might discover that he is really smart.

      It is easy to label those with whom you disagree "cranks." Yes, some people's systems are internally inconsistent, and/or not based on reasonably established facts about the world. But if a model or theory is internally consistent and not convincingly contradicted by "facts" (which can keep changing), the most one could say is that he/she was wrong.

      Calling proponents of coherent and consistent ideas cranks would be like calling Bohr a crank should his ideas be disproved or simply superseded in the future. Bohr was a serious scientist, and I am quite sure he was sincere in his quest to find the "truth" about our universe.

      En

        Dear En:

        Thank you for your careful reading of my essay and your very extensive comments. I will read them more carefully and respond later. And thank you for the various pointers to related work.

        I also noticed, perhaps coincidentally, that my Community Rating jumped up. Thank you, again.

        One interesting aspect of physics is that "facts" as observed in experiments are actually strongly filtered through theories, something that most physicists do not really appreciate. For example, it is universally believed that diffraction experiments prove that neutrons and atoms are waves. But I've presented an alternative explanation compatible with particles. It is also widely believed that non-local quantum entanglement is an experimental fact, but all such observations are based on measurements of linearly polarized single photons, using detectors that cannot distinguish one from two simultaneous photons. The proper experiments could be done, but have not yet been reported.

        I also proposed a 2-stage Stern-Gerlach measurement. This is presented in standard quantum textbooks as if the experiment was done many years ago, but it has never been done. Feynman in his Lectures on Physics (1963) admitted as much:

        "Incidentally, no one has ever done all of the experiments we will describe in just this way, but we know what would happen from the laws of quantum mechanics, which are, of course, based on other similar experiments. "

        It is not that these experiments are particularly difficult or expensive; rather, it is viewed as disreputable to question accepted wisdom, so no one even wants to try.

        Finally, I note that virtually all of the interest and comments on my essay come from amateurs. As a rule, theoretical physicists refuse to engage in any way. I feel like I'm being shunned.

        Alan

        Alan,

        Thank you for your reply.

        In your comment (Alan M. Kadin replied on Mar. 17, 2015 @ 18:46 GMT), you mention that "...It is also widely believed that non-local quantum entanglement is an experimental fact,..."

        In response to the above quoted comment, I am going to say something that is either ignored or "underappreciated" generally. Even if we were to assume that the Bell-EPR experiments found what the QM community says they found, nothing can get around the following: All that was ever observed experimentally were correlations. "Entanglement" was never observed and never will. Its "extrapolation" requires the a priori acceptance of the thing "they" are trying to prove in the first place (non-locality/non-realism of QM). Only if you already believe and take a priori as axiomatic that particles and photons have no attributes until being measured/detected could you come to the conclusion (as a consequence of said experiments) that the detection of one "branch" of a singlet pair determines the state of its other "branch."

        There cannot (in principle) be experimental "proof" of entanglement (since no one knows what that even is, and if they think they do, let them propose the mechanism) unless we assume ahead of time that particles have no attributes while not being observed (and even then there is never an actual observation of entanglement, only inference). The claim "they" could be entitled to is that they are observing unexplained correlations, and "they are working on it."

        I am not surprised that you are being shunned by your colleagues. One of the Directors of the NSF told me that every time he proposes funding for research that might "put in question" prevailing views, the Bell Mafia (his words) descends upon him, and he is discouraged (via moral suasion) from pursuing it. Due to a combination of historical and scientific evolution (meaning, its various developments, social or otherwise) over the last 90 years, the QM movement has built up such an imposing "edifice" that it is virtually impossible to dislodge it from its pre-eminent position. It is a historical anomaly.

        Like it or not, this is a long-term project (but it is extremely important).

        However, in the interim, regardless of the status of QM, there will still be the issue I raise in my comment. It has to do with the progress toward ever-more esoteric physics, and our inability to keep going in that direction. I wonder if you could put your mind on that as a subject in itself.

        But if you would be so kind as to address the other parts of my comment (En Passant wrote on Mar. 17, 2015 @ 15:43 GMT) to the extent you deem appropriate, that too will be appreciated.

        En

        Dear Alan,

        Thank you for very good essay. Reading was a pleasure as I agree practically with all your conclusions. Moreover I have proposals how to add details you expect in future.

        The major part of mathematics is completely abstract in the sense that have nothing to do with physical reality. But I cite you: pictures should guide physics. Pictures are geometry, that is part of mathematics. The same here - not the entire geometry can be isomorphic to the reality like e.g. highly speculative 11-dimensional M-theories. So the question is what geometrical structures fit to the reality? As you point out, mathematical models were adopted prematurely in the development of quantum theory. That time there were no Thurston geometries. This is the geometrization conjecture, proved by Perelman in 2003. Having that, we need only an universal correspondence rule which links the geometrical structures with the empirical domain. That rule have to be a new paradigm. Then we are able to assign proper Thurston geometries to all fundamental interactions and matter. We can treat them as a space-like, totally geodesic submanifolds of our familiar 3+1 dimensional spacetime. To make the picture of submanifolds (3) alive we need time (+1). With time included we have got quantized wave packets.

        This is my proposal on the basis for the quantization. I have called this concept Geometrical Universe Hypothesis referring to Tegmark's MUH. In this picture there is no indeterminacy, entanglement or decoherence. No Copenhagen interpretation. Apparently what I have described here is oversimplified, but you can find details in my essay.

        I would appreciate your comments. Thank you.

        You deserve the highest rating that you will see in a while.

        Jacek

          Dr. Kadin,

          I wouldn't worry about being shunned if I were you. I'd worry about the think tank types patenting your work. Seriously, get some tech money in your corner, wave-particle duality is a glorified admission of failure. A friend of mine on a construction crew once (damn good crew) had grown up in a family of con artists, and one time we were talking and he said that "if you walk into a room and can't spot the mark, you are". And you're right, the Bell-Aspect experiments with the polarized sunglasses type filters and the trick bulb (?), yep, it's a trick bulb. Best of luck, jrc

          Dear Alan,

          For the modelling of a spin-zero particles, your idea of combining 2 spin 1/2 particles is certainly valid. I took a slightly different approach after spending considerable time looking at the ideas of physicists Helmholtz, Larmor and Rabi in the late 1800's and early 1900's. Although Larmor's ideas were dis-proven for massless particles (ie. photons) by the famous Michelson-Morley experiment to discover the ether, his ideas on massive particles (protons and neutrons) went on to form the basis for the mathematics behind Rabi FID decay times in modern medical MRI equipment.

          The approach I advocate for modelling spin-zero particles starts with the Helmholtz decomposition of vortex spin, breaking it into its longitudinal and transverse components. The vortex with only transverse components of spin, ends up being the natural candidate for the Higgs Boson.

          I have read your essay again and enjoyed it just as much, maybe someday we will have a chance to discuss pros and cons of the different models.

          Best Regards, Ed

          Dear Alan Kadin,

          I have no interest related to Quantum Theory, but I see that you are in a serious way to approach this problem.

          Your words are:

          "In contrast, in my picture, deterministic causal equations apply at all levels - no boundary is present, and therefore no boundary problem".

          The original table with concrete relationships at all levels (no boundary is present) is in my essay. Perhaps you could expand it to Quantum Theory. Critique of my concept is appreciated.

          Regards,

          Branko Zivlak