Nonlocal Quantum Entanglement Of Different Particles Used To Detect Gluon Geometry

High Energy Physics was long completely isolated from foundational questions of Quantum Physics. The quip of HEP physicists was:”Shut up and calculate!”… instead of worrying about entanglement, nonlocality and the ultimate mature of reality. Well, this has now changed, big time. For the first time, quantum entanglement was used to probe gluon geometry inside nuclei. Gluon, which are bosns, have “color” hold the quarks together inside hadrons, but it turns out they can come out a bit. [1]

The STAR detector, itself about the size of a house, is the first detector sensitive enough to measure the entangled properties of the daughter particles arising from a relativistic heavy ion “near-miss” interaction. This early 2023 result is the first to demonstrate entanglement between two non-identical particles. (Credit: Brookhaven National Laboratory)

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Many will find baffling that matter waves from different types of particles can be antangled. Here is my take on it:

Careful considerations show that quantum physics is obtained by simplifying the facts and logic of classical mechanics as much as possible (warning: textbooks often say the opposite… without proof!)

Consider for example spin. Instead of an arbitrary angular momentum axis for each of two entangled particles, as classical mechanics has it, consider just one axis… for both particles, at the same time! And instead of continuous angular momentum, reduce angular momentum to just two values (+ or -)… for that one axis! Out of that most simplified description, this barebone reality, nonlocal entanglement of spin (photon polarization or silver atoms…), or nonlocal entanglement of two states systems in general, is obvious… being germane to the most simplified, aka, “quantum”, description of the system.

The spaces one gets that way, by simplifying the classical descriptions, “quantizing” them, often with discrete outcomes, have as basis the quantum outcomes (“states”). To compute therein, use the simplest math: complex numbers and linear algebra operating on amplitude waves. As evolution equations, use the simplest partial differential equations, where evolution is driven by energy. And so on.

Simplifying to the max a barebone description of the electron with the simplest amplitude wave is how Dirac got his equation, out of which popped antimatter, and precise measurements…

The metalogic of quantum mechanics as the simplest description of classical mechanics extends throughout… As long as one is willing to generalize the notion of space (for example electrons live in 4 dimensional complex space).

In other words, far from weird, quantum physics is exactly what you would expect by making the simplest parody of reality that one can still compute with. Nonlocality pops out naturally, as soon as one realizes that many “particles” can be entangled in one outcome. That the “particles” are of different nature is besides the point… and now we have the experimental proof of that! Classical mechanics did not forbid nonlocality of quantum amplitudes, but the simplest-description axiomatics obtained by simplifying classical mechanics to the max, required it..

A spacetime foam has been evoked by relativists as the ultimate nature of reality. Now high energy physics is revealing its nature: inter alia, quantum amplitudes are transferred from one type of particle to another, in the EPR, nonlocal way. Quantum Physics happens in Quantum Spaces (aka “phase space”) spanned by Quantum Outcomes (“Quantum states”). Local, classical reality is a statistical effect from a hidden thermodynamics of nonlocal entanglement.

Patrice Ayme

Reference: Tomography of ultrarelativistic nuclei with polarized photon-gluon collisions

“We measure two outgoing particles and clearly their charges are different – they are different particles – but we see interference patterns that indicate these particles are entangled, or in sync with one another, even though they are distinguishable particles,” said Zhangbu Xu, a (Chinese) author of the study (this was a very multinational collaboration).

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[1] Gluons do not interact with photons directly, because photons don’t have color. But a photon can transform in an ephemeral quark-antiquark pair, which will interact with the gluon. Ultimately the inner geometry is revealed by the outgoing entangled yet distinguishable pions (with opposite electric charges!)

The QUANTUM Is NOT “WEIRD”. Instead The Quantum Is The Most Abstracted Classical Mechanics

QUANTUM PHYSICS IS THE SIMPLEST ROOT OF CLASSICAL REALITY IMAGINABLE

Abstract: Quantum Mechanics is the simplest imaginable description of the world obtained by reducing all what is known from Classical Mechanics to its simplest parody. Simplest space, simplest math, simplest equations, etc. The organizing metaprinciple of QUANTUM PHYSICS IS Classical MECHANICS MADE AS SIMPLE AS POSSIBLE. We will focus on the simplest, two state systems.

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Simplicia: Physicists usually describe Quantum Mechanics as “weird”. You are the first one to claim Quantum Physics is NOT weird.

Tyranosopher : In his famous Lectures on Physics, Feynman describes Classical Mechanics as a “shadow” of Quantum Mechanics, or a mnemotechnical trick. Well, he was wrong, there is more to it than that. It took me many decades of deep study of the Quantum to find that in truth, arriving from the first approximation of Classical Mechanics, Quantum Physics is not philosophically weird, but the LOGICAL ROOT of Classical Mechanics. Let’s suppose you were God, and you wanted to devise the simplest barebone theory as a basis for Classical Mechanics… What would you find? Quantum Physics! 

Simplicia: God is useful after all! What do you mean by barebone?

Tyranosopher: Logically barebone: the fewest and simplest axioms animated by the simplest logic. Take for example angular momentum. Classically, Angular Momentum can take any value in any direction: a classical massive object can rotate this way or the opposite, and more or less, along any axis, and can be measured again and again, ad vitam eternam: that’s a lot of freedom. 

Simplicia: To make Angular Momentum barebone, if you were God, what would you do? 

Tyranosopher: Instead of Angular Momentum having any value, you would decide, as God, that Angular Momentum could have JUST TWO VALUES: clockwise, or anti-clockwise. Then, instead of being able to point its axis in any direction, as God, you would decide ONE SINGLE direction is enough. And moreover, you measure it JUST ONCE. So barebone Angular Momentum takes only two values, and in only one direction, one time: and it turns out that this is the simplest version of Quantum Spin. When Quantum Spin is reduced to a two state system (automatically entangled).

And it is what the Stern Gerlach theorem reveals for silver atoms. Similarly for photons.   

Simplicia: What do photons and silver atoms have in common?

Tyranosopher. Photon polarization and silver atoms are both two states’ systems. Apply the simplest mathematics to them, and you get the same mathematical, hence physical result. So they both exhibit nonlocality, entanglement, etc.

Simplicia: What are these “states”?

Tyranosopher: Quantum States are the outcomes of experiments with set-ups sensitive to Quantum effects. The presence of states is all very relative, or as Quantum Foundations theoreticians say, CONTEXTUAL. There is a theorem saying one cannot have non-contextuality.

Simplicia: Please elaborate.

Tyranosopher: Once again, suppose you are god, and you look at angular momentum or polarization. As I said, the simplest situation where something non-trivial happens is if you have built, or found, a device with two outcomes only: spin up, or spin down. Or polarization horizontal, or vertical. Each of these two distinct outcomes is called a state. Label these two distinct outcomes: I+> and I->. Then what’s the simplest non-trivial computational setup you can invent?

Simplicia: A vector space where I+> and I-> are the basis vectors?

Tyranosopher: Exactly. Let’s consider H, the complex vector space with basis I+> and I->.

Simplicia: Why complex?

Tyranosopher: Because you are God and you want to use the largest commutative field and that’s the complex numbers, called C. There all algebraic equations can be solved, with the help of the square root of (-1), called i.  Turns out that this has all immediate deep physical meaning

Simplicia: Complex numbers, also called imaginary numbers, are natural?

Tyranosopher: Yes the number i corresponds to the rotation by pi/4, an angle of ninety degrees, around the origin in the plane.

Simplicia: What’s the connection of complex numbers and (i) with physics?

Tyranosopher: A photon is characterized by its momentum, which is a vector p which points in a direction, and has a frequency E. (hE, p) is the energy-momentum of the photon. It tells you where the photon is going and with how much energy. However, that does not characterize the photon fully. Experiments already conducted by the Vikings show that the photons have polarization.

Simplicia: The Vikings were physicists?

Tyranosopher: They navigated the North Atlantic, going from islands to islands, all the way to America. They needed to know where the sun was, say at noon, to know where the north was. The weather is often so cloud covered there, that one can’t say where the sun is, for weeks on end. Fortunately, the Vikings had stones which gave the direction of the sun. That’s because the atmosphere partially polarizes sunlight.

Simplicia: So the complex numbers characterize polarization?

Tyranosopher: A photon is made of an electric field paired to a perpendicular magnetic field, both perpendicular to momentum p. It’s enough to know where the electric field points to know the polarization. A complex number gives you polarization.

Simplicia: Why can’t a single real number give you that, like, you know, the angle?

Tyranosopher: Complex numbers give you more information. Let’s backtrack. God is trying to build the most powerful yet most complex mechanics possible. By considering complex numbers, you augment the power, but also the simplicity, because all algebraic equations, the ones with powers, are solvable. So, in an important way, C, the complex plane, is simpler than the real line R. Physically speaking it also turns out that quantum waves multiply, to make quantum amplitudes, which are probability waves, and probabilities multiply, but only as complex waves. 

Simplicia: So let’s recapitulate. You reduce angular momentum to simply + or -, plus or minus… instead of a continuum of numbers. You also reduce the direction of angular momentum to a single one, the one along which you measure it. You then build a vector space with I+> and I-> as base vectors, and you simplify maximally by choosing complex numbers instead of real numbers.

Tyranosopher: Absolutely. Isn’t it funny that complex numbers are actually both simpler and more powerful than real numbers? Complex numbers live in a plane and contain in their description light itself!

Simplicia: Are you identifying the complex plane with light?

Tyranosopher: Take a complex plane P, brandish it in space, and pick up a (complex) number N in it. That represents all the information we have on a photon.

The perpendicular to P through its origin gives you the direction of the photon, the norm c of N gives you the frequency and the angle a of c gives you the polarization. So the information (P, c(exp ia)) gives you the photon fully. You can’t do that with real numbers 

Simplicia: Photons are points in flying complex planes?

Tyranosopher: Yes, but we are not finished. 

We have this complex vector space H = C (I+>, I->)… that means it has two basis vectors. Consider a vector v in that space. It has coordinates in function of I+> and I->; the square of the norms of those coordinates are real numbers. They express the probability of v being in state I+> versus in state I->. 

Once again the guiding meta-principle here is the same: make it the simplest for getting a non-trivial result, depicting reality which is what we know, namely that any experiment will give either I+> or I->.

Then we introduce another ingredient: that light and matter behave in a wave-like fashion. So make the coordinates of v into waves depending upon space and time. Also, at the simplest, when v is operated upon, it will give another vector w. To go simplest again from v to w, one should use a linear operator.

Simplicia: Is that the famous “matrix mechanics”?

Tyranosopher: Exactly.

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Simplicia: What of weird effects like tunneling, and Quantum Entanglement?

Tyranosopher: Tunneling comes from the wavy nature. It would require a bit more elaboration to explain as one needs to introduce energy and how it affects waves. Basically, not all of a sudden, hence (probability of presence) waves penetrate a bit, that’s tunneling. 

Simplicia: And what about nonlocality? 

Tyranosopher: The nonlocal nature of Quantum Entanglement is in plain sight. The simplest is two particles sharing the same two state spin system with total spin zero. :Choose an axis of measurement, call it Z. Then measuring gives the spin of the other particle along Z automatically even 4 lightyears away. But choosing Z was an act of will. So will acted 4 lightyears away.

Simplicia: Minds change the universe light years away?

Tyranosopher: Yes, indeed. Sub Quantum Physical Reality assumes that the propagation of that change is progressive.

Simplicia: What if the distances are too great?

Tyranosopher: Then entanglement fails, and, or Dark Matter and, or Dark Energy are created. That’s what I say.

Simplicia: Does spacetime make some sort of foam at the smallest scale?

Tyranosopher: It’s worse than that. It’s a topological foam, and it’s nonlocal. There again, as God, you would have been confronted with the following problem: how to describe the infinitesimally small? 

Simplicia: By making the infinitesimally small ever smaller.

Tyranosopher: That was tried in biology. It was called the homunculus theory: a human being would start as a tiny reproduction of itself. In truth what happens is that bacteria divide, so they never get that small, and animals… more generally eukaryotes, start with molecular (DNA, RNA) and cellular formations which enter in a constructive dialogue with the environment (some of which is self-created). So basically sophisticated life doesn’t start as itself at all, but in a  nonlocal way. Same thing for spacetime and particles.

Simplicia: Does Quantum Entanglement hold objects together?

Tyranosopher: It has been difficult to find when, where and how an object switches from Quantum behavior to Classical behavior. It is imaginable that Quantum Entanglement holds objects together. After all the more massive an object, the higher the probability that an entangled state will collapse. Collapse is the glue.

Simplicia: How so?

Tyranosopher:  De Broglie associated a matter wave to every single massive object.

Simplicia: Are photons massive?

Tyranosopher: Yes they are, in the sense of inertial mass. Poincaré published and taught in 1899 that a photon has inertial mass m = E/cc. That’s coming straight out of electromagnetism. Photons of course have no rest mass, because they are never at rest. But they contribute to gravity as E/cc, from the axiom: inertial mass = gravitational mass (Einstein called that the “Principle of Equivalence”).

Simplicia: Let’s go back to matter waves. 

Tyranosopher: An object of mass M has wavelength L = h/M, where h is Planck’s constant. A deep question is how that L is generated. Clearly L should be equal to a sum, what is called an integral in mathematics: Sum(m(i)), where m(i) are the zillions of zillions of particles constituting M: all the gluons, quarks, photons, electrons inside. However, the sum should be extended to entanglement itself. I mean what’s called the “particles” are actually the states. Most of the time Quantum systems are actually delocalized Quantum fields.

Simplicia: Are Quantum Entanglement and Delocalization the same? 

Tyranosopher: No. QE is an example of delocalization. Sometimes 

Simplicia: What happens to mass during these delocalizations?

Tyranosopher: Good question! The experience has not been made. Einstein postulated, in 1905, as an axiom that a photon was localized always… and this may have led him to the EPR thirty years later, and introducing the doubt of “spooky action at a distance”… He was a bit arguing with himself.

From the introduction section of Einstein’s March 1905 quantum paper “On a heuristic viewpoint concerning the emission and transformation of light”, Einstein states:

“According to the assumption to be contemplated here, when a light ray is spreading from a point, the energy is not distributed continuously over ever-increasing spaces, but consists of a finite number of “energy quanta” that are localized in points in space, move without dividing, and can be absorbed or generated only as a whole.“

This statement has been called the most revolutionary sentence written by a physicist of the twentieth century. However, it’s probably not completely true, and I have called it “Einstein’s Error“. First, Quantum Field Theory, and even QED, its predecessor, which Einstein tried, but failed to learn, has replaced “particles” by (delocalized) Quantum Fields: no more localized particles at a point. Moreover, and worse, if one believes the Quantum amplitudes that one computes with have some physical reality, as SQPR, Sub Quantum Physical Reality, believes, Einstein is not completely correct, and the difference is Dark Matter, and Dark Energy. Indeed, in SQPR, Sub Quantum Physical Reality, some mass-energy is spread out. Experimentation will have to decide, although the existence of DM and DE is massive proof enough for me. But this is all speculative, whereas deducing Quantum from Classical, as the maximal non-trivial abstraction from Classical, the original subject of this essay, is not.

Simplicia: Feynman often put philosophy is a bad light.

Tyranosopher: Feynman, like, Mach, Boltzman, Planck, Einstein, De Broglie, and all great physicists, was a philosopher. Dirac deduced his equation for the electron field according to the principle of abstraction from Classical Mechanics and simplicity. Dirac looked for the simplest Partial Differential Equation the square of which would be the relativistic mass-energy-momentum formula for an electron. That’s the Dirac equation! It produced correct quantum electrodynamics, spin and anti-matter! It was deducted according to the general machinery I advocate! So in a way the method I exhibited here to deduce Quantum Physics had already been used, at least in particular cases.

Simplicia: Is your own SQPR deducted similarly?

Tyranosopher: Yes, from classical obvious to fully abstracted and still obvious. Newton said, in a private letter, that it was madness to suppose that the gravitational interaction was instantaneous. A century later, Laplace filled in the idea, making gravitation into a field, and thus predicting gravitational waves. SQPR assumes that Quantum Entanglement, like Delocalization in general, is a field with finite speed: present Quantum Mechanics assumes that QE and nonlocality propagate at infinite speed. This finite speed assumption produces Dark Matter and Dark Energy quasi-instantaneously.

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Conclusion: This is as it should be: after all, Classical Mechanics is the appearance, the first order approximation, and Quantum Physics what generates that appearance. One can deduce Quantum Physics from Classical Mechanics.  One just has to expand the notion of “deduction” beyond what Feynman was familiar with. A love of wisdom helps with science, as it allows us to expand what logic means.

Patrice Ayme

(Aaronson) Misleading “Quantum Talk”

Of Those For Whom Despising Others Fosters One’s Sense Of Existence:

Aaronson, a renowned Quantum Computation expert thought funny to pretend that what he studies (programming Quantum amplitudes) is the end-all, be-all of the universe. So this is out in a cartoon, complete with arrogant child and even more stupid mom. Although the fact the mom is stupid is not revealed by the cartoon, quite the opposite. When does she go wrong?

Besides having no eyes to speak to, or from? So here is the cartoon. It starts pretty well. It ends up as badly as possible, with plenty of lies about Quantum Mechanics and unsupported assertions that consciousness has nothing to do with Quantum Mechanics (when there is plenty of evidence to the contrary, including that QM is at the core of biology). Anyway here is the silly cartoon, from a respected Quantum Computational authority:

I condescend and lie, therefore I think, hence I exist? Too many physicists have succumbed to that temptation, due to their otherwise modest position in society.

There is a partially correct message above not well known by the unwashed multitudes: yes, Quantum Mechanics compute with complex amplitudes. Why is that? Let me reveal it: consider light. It’s the simplest Quantum phenomenon,and it requires Complex Numbers to be described as compactly as possible. Light is made of entangled electric and magnetic fields at an angle to the propagation direction. More precisely: E is the electric field vector, and B is the magnetic field vector of the EM wave. For electromagnetic waves E and B are always perpendicular to each other and perpendicular to the direction of propagation. The direction of propagation is the direction of E x B.

Electromagnetic waves are the solutions of Maxwell’s equations in a vacuum, which abstract the experiments pioneered by at least half a dozen physicists (Monge, Ampere, Faraday, Fresnel, etc.).

E (and thus B!) can rotate, or be in any directions, as long as they are perpendicular to each other and light wave propagation. However one can also fix E, by letting the light through a grid. This is a standard experiment, it’s use in polarized sunglasses, etc.  However it’s very deep, deeper than Aaronson can understand, or that present physics understand: this means the light is somehow extended… If if it’s a single, proverbial photon.

Any light wave coming from the left. The first vertical grid forces the E electric field of the light vertically (any other direction gets captured by the vertical grid). The second horizontal grid kills the vertically polarized light.

In general, the electric field E can adopt any direction or rotate. To depict this mathematically, there is a handy instrument: the Complex Number field, which is the one and only generalization of the Real Number field [1]. Light is also the simplest Quantum phenomenon known. Thus, to fully depict the simplest Quantum, one needs Complex Numbers. More Quantum will naturally mean more Complex Numbers.

Aaronson claims that “physicists had a customs when describing these matters with outsiders, they want to avoid being… too graphic too explicit … too *gulp* mathematically correct“.

The Schrodinger Cat, and nonlocality are caused by “talking to outsiders”? This is what Aaronson says explicitly lower down in the cartoon. This is hogwash bullshit. Physicist didn’t understand much of the very basics of the Quantum Mechanics they were in the process of inventing. Even the most trivially blatant features of Quantum mechanics were not understood for more than a generation, although they were the first thing one wrote on the subject. Let me explain.

The basic equation (De Broglie-Schrodinger) reads basically as:

i(change W relative to time) = (change acceleration of W) + (W)(A)…

More “mathematically”: i dW/dt = ddW/dxdx + AW

Where W is a complex wave, and A a potential W interacts with (say the electromagnetic field for an electron) [2].

It’s obvious from this most basic equation, that W reacts to the potential A. However, it took 33 years or so to notice this: Bohm and Aharonov did it… and all the big geniuses of Quantum Mechanics, even Einstein and De Broglie, let alone Bohr, Heisenberg, Schrodinger, Pauli, Born, the hyper arrogant Von Neumann, Dirac, etc… Didn’t notice it.

Notice Aaronson describes physicists as “insiders“. In other words, physicists make a tribe… just like many philosophers around “French Theory” have claimed…

However, the real truth is that physicists were too ignorant to describe WHY the COMPLEX Quantum Wave well to “outsiders“, because there was not enough inside the heads of these insiders. But here I come.

So I take my right arm, and project it forward, like your standard Kung Fu master. I open three fingers. My index points in the direction of motion of my arm, ready to punch inside the eye of the tribal physicist “insider”. My major points perpendicular to the index (because physicists insiders get my symbolic finger; it also represent the E field above). My thumb, representing the B field, is perpendicular to the other two extended fingers. At this point the whole assembly of these three fingers progressing forward can be described by three real numbers. But then I impose a rotation of the entire hand: there is your Complex Numbers field. The rotation requires the complex numbers

Some could sneer that one complex number is a pair of real numbers with weird multiplication rules, so we don’t really need Complex Numbers, bla bla bla… But Mathematics is not just a language: mathematics is the most compact, most efficient language: it does that by compactifying the logic maximally.

What does Patrice mean by “compactifying the logic”? How to measure that? Simple, count the symbols: the fewer symbols, the most compact… [3]

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Aaronson claims that “classical events have probabilities and quantum events have amplitude“. That’s false. They have probabilities too (from the square root of the norm squared of the amplitude). Before Aaronson showed he had no modesty, didn’t know the history of physics and was a tribalist. Now he throwing through the window not just the philosophy of Quantum Mechanics, but also the entire Theory of Measurement, and what the refined analysis of what an “event” is.

A basic axiom of Quantum Mechanics is that an unobserved event is not an event. As long as one has “amplitudes”, the quantum system computes quantum mechanically, but one had no “event”. “Event” happens after the collapse, when there are no more amplitudes. I call that singularization. Other more or less equivalent concepts are “collapse” and “decoherence” (collapse frightened the children so they opted for decoherence as they became snowflakes).

So what Aaronson presents as the one and only axiom of Quantum Physics is actually a self-contradicting ERROR.

Actually Wikipedia offers nine different complicated and independent axioms for Quantum Mechanics.

So why does Aaronson speak only of amplitudes? Because it’s all he needs for his job, computer programming. Forget physics: Aaronson doesn’t seem to know the difference between “amplitudes” and “waves”: waves have “amplitudes”, but do not reduce to “amplitudes”. Moreover, Quantum waves don’t behave like classical waves with their (only) local behavior: Quantum waves are global. In the author’s own SQPR,, the waves propagate at an enormous speed, tens of trillions of trillions times faster than the speed of light (so they appear “instantaneous” as the present Quantum mechanical axiomatics has it…)

https://patriceayme.wordpress.com/2016/05/18/quantum-waves-are-real/

The  (so-called “Heisenberg”) Uncertainty Principle is a direct consequence of De Broglie hypothesis. Yet, the basic idea is pre-Quantum… Or rather Quantum in the pure electromagnetic sense… as I said, the very basics of Quantum mechanics is electromagnetics, thus optics. Let me explain a bit more.

To find out where something is, one shines a light on it, one hits it, say, with light. However the light’s precision is greater, the shorter its wavelength (otherwise light turns around objects for the exact same reason as radio waves do). But the energy of the light is proportional to its frequency which is inversely proportional to its wavelength. So the more precise one tries to ascertain where an object is, by looking at it, the greater the kick one imparts to it. It’s obvious one will get an uncertainty, and, at this point, one doesn’t even need De Broglie’s equation, the relation between wavelength and momentum, but plain 19th century physics, mostly that light has momentum… the very same property tremendous genius Jules Henri Poincaré used in 1899, to demonstrate E = mcc, the famous mass-energy relationship usually attributed to fluffy parrot Einstein, then a young brat who tried to make us believe he invented all of physics besides telling God how to organize the universe (as Quantum Founder and nobel Niels Bohr told him).

To get the best numbers of the exact inequality, one needs De Broglie…

Notice that what is important here is WAVES, not just amplitudes. And the relationship between momentum, energy, and wave frequency, direction. Right the waves are complex and they have amplitudes.

By the way, Waves are not all one needs for Quantum Mechanics: SPIN, for example comes from a different logical source, purely geometrical. Spin was discovered by another tremendous French genius, Elie Cartan, before World War One. A generation later, Spin surfaced in Dirac’ s fertile mind: Dirac wanted the most simple equation possible to describe the electron… That required a new space, to enable spinors to live on it… (The mathematics of all this are not well understood at the deepest level; it’s a bit as if one took the square root of space, I have not much clue beyond that, nor does anyone else…)

Aaronson also claims that Quantum nonlocality is just a matter of amplitudes. Well, it’s not. Between the EPR paper of 1935 and Bell’s inequality of 1966, there were 33 years during which physicists were perplexed more than perplexed: they ignored nonlocality all together (until Bohm-Aharonov). Experimental tests started much later, and some physicists have received the greatest prizes for it … Albeit not the Nobel… which was attributed for realizing the Bose-Einstein condensate, some 70 years after it could become theoretically imaginable…

With the end of his silly cartoon, Aaronson demonstrates he doesn’t know physics (the beginning is pretty good though…), and it is teaching lies.

Aaronson demonstrated that he may have had a condescending mechanical mom without eyes, and the arrogance simpletons comes with, by definition.

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Authorities (such as politicians, economists, media owners and physicists in position of authority) have several reasons to lie. Yes it manipulates people but more precisely:

1. It prevents people to access to truth, thus power.
2. It confuses people, leveraging on 1).
3. It fills the public with awe, because, confused and powerless, they view the authoritative figure as quite a bit of a magician, because lying enables the authority to apparently master the (otherwise) incomprehensible.
4. In manipulating We The People into submission, it is crucial not to reveal that the incomprehensible has been made incomprehensible by the authorities, by deliberate design of an immense distraction (following the misleading Aaronson, good luck trying to deduce nonlocality from “amplitudes”: there are “amplitudes” in my bathtub, but that doesn’t make nonlocal… So this is an impossible task, which Aaronson pretends to have mastered; economist and politicians, bankers and other high finance types, even ecologists on government payroll, do the same. day in, day out, 24/7: outrageous lying, to confuse the multitude)

All too many “intellectuals” in recent decades have been for sale…

Teaching Quantum Physics to all is teaching the universe as it is to all. Knowing Quantum Physics enriches one’s arsenal of understanding schemes, all over. So teaching it correctly is a mission civilisatrice. When humanity is more intelligent in the future, it will be in part because of this. For example the meta observation that everything is made, in the small, of waves is most enlightening, and impact sensibilities…

Thus la trahison des clercs, here lying about the nature of the Quantum, while posing as an “insider” is the sort of pseudo-intellectual posturing humanity really doesn’t need. This sort of deliberately dishonest and malicious posturing has brought deplorable racism such as imposing the notion that fearing Wahhabism is racist… and has distracted from the most major problems at hand such as global plutocratization and the man-made mass extinction.

Patrice Ayme

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P/S: A friend of mine, a professional university researcher in Quantum Computing, long working for a GAFAM, sent me the cartoon above, in an apparent slight to my essay on brain modularity making consciousness necessary. I am grateful as the paper was intelligently stupid.

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[1] Quaternion make a non-commutative division algebra.

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[2] i is the square root of (-1), a rotation by 90 degrees in the complex number field. I put Planck constant = 1… As I am limited by the WordPress software, I denote the second (partial) derivative relative to space as dd/(dx)(dx) which is what it is… but different from the usual symbolic… which also use the psi Greek letter instead of W…

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[3] Maxwell equations initially covered an entire page. Now they can be reduced to nine symbols: dF = 0 and d*F = A.

To understand that, you have to learn more advanced differential geometry: exterior differentiation, the * operator, etc. But will admit, that’s compact… And thus in the only sense that makes sense, MOST intuitive.

QUANTUM WAVES ARE REAL

Demolishing The Quantum COPENHAGEN MISINTERPRETATION With Its Own Instruments:

The nature of reality fascinate true philosophers. Do we have to understand the Quantum to understand dreams? The naive will say no. But, well, in truth, probably. The brain is no analogue computer, it’s a QUANTUM computer. So, to understand dreams, one has to try to understand the quantum. However, to go deeper than the foundations of physics is, by definition, to suggest new physics.

I have said for many decades, that Quantum Waves are real… and obsolete physics is not. OK, just kidding, obsolete physics is all too real in the minds of physicists. Physicists are rarely amused about the foundations of physics: they know they don’t work, and prefer to ignore the subject. But the Quantum Computer will force them to confront it… To confront the waves:

The Universe Is Not Empty: It’s Full Of Stiff, Superluminal Quantum Waves

[The picture, made in 2013 by a fundamental physics institute in the Netherlands, was obtained by statistical sampling. Some call that technique a “Quantum Microscope”… Statistical sampling seems to be all there is to QTT, Quantum Trajectory Theory]

Quantum Waves are of course real objects. Proof? Well, experimental proofs are coming.

However, I will roll here a slick philosophical proof which I have seen, or even alluded to, nowhere. It’s disarmingly simple, of the order, in the way of baffling simplicity, of the celebrated, 26 centuries old, “this sentence is false” (the precise mathematical dressing of that brain twister, with a little help from Cantor, is known as the first Godel Incompleteness Theorem).

The first mention of the Copenhagen Interpretation was in Heisenberg’s 1930 book on Quantum Mechanics which, he wrote, “contributes somewhat to the diffusion of that ‘Kopenhagener Geist der Quantentheorie‘ [i.e., Copenhagen spirit of quantum theory] if I may so express myself, which has directed the entire development of modern atomic physics”.

So here I am fighting a “spirit” (“Geist”). (When confronted to the De Broglie-Bohm theory in the 1950s, the ex-Nazi Heisenberg called the “Copenhagen Geist” an “Interpretation“… a term he came to regret… Nowadays, people attached to sanity have to fight the “Many Worlds”/”Multiverse” Interpretation, a collective madness worse than smoking.)

Even the most closed minded physicist recognizes that (“elementary”) particles are (“somewhat”) real. In the Copenhagen Interpretation, the property of “wave” and that of “particle” are viewed as “dual” or “complementary” (one or the other).

However the Copenhagen Interpretation of Quantum (CIQ) then proceeds to contradict said duality. Indeed, if the wave-particle duality is correct (as the Copenhagenists claim), then obviously, if particles are real (something has got to be real!), then surely waves are real (because they are “dual” to each other).

However the Born Interpretation of the Quantum waves is that the Quantum Waves are PROBABILITY waves. But a probability wave is not real. Hence a blatant, fuming, red hot, grotesque, contradiction: particles are real, according to CIQ… in duality with Quantum Waves, according to CIQ… yet the waves are NOT real… according to CIQ!

This is an extremely elementary philosophical reasoning,. However, it seems to have escaped ALL the physicists who considered the subject. (Do parrots think? Yes, they do… all the same.)

Reciprocally, if one admits that the real world is really made, somehow, of real particles (as Einstein famously did), then the reasoning I just made suggests that the Quantum Waves are real.

Here is a completely independent demonstration of the latter: it turns out matter is mostly, all the time, launched in dynamical quantum processes. Actually most of the mass is generated by quick motions of quarks and gluons within hadrons, thanks to Poincaré’s relationship, Energy = Mass (“E = mcc”) . During these displacements, matter is under the form of Quantum Waves (or of dynamical quantum fields, as some will want to say, to sound real cool). An example is electronic orbitals in atoms: they have substance… because they are delocalized waves. Thus, matter is clearly made, 99.999% of the time, of delocalized quantum waves.

Patrice Ayme’