Quantum Interpretation Poll (2011)

In summary, the conversation discusses an annual quantum interpretation poll where one can vote for their preferred interpretation of reality. The poll is missing the consistent histories interpretation and does not have a way to specify details for "other". The thermal interpretation of quantum mechanics is brought up and the speaker provides links to further information on this interpretation, including its benefits and its compatibility with classical thermodynamics. The thermal interpretation is based on the observation that quantum mechanics predicts classical thermodynamics and takes as its ontological basis the states occurring in statistical mechanics. The thermal interpretation also addresses the issue of uncertainty in quantum mechanics and defines a surface ontology and a deeper ontology.

Which Quantum Interpretation do you think is correct?

  • Copenhagen Interpretation

    Votes: 34 22.7%
  • GRW ( Spontaneous Collapse )

    Votes: 2 1.3%
  • Consciousness induced Collapse

    Votes: 11 7.3%
  • Stochastic Mechanics

    Votes: 3 2.0%
  • Transactional Interpretation

    Votes: 4 2.7%
  • Many Worlds ( With splitting of worlds )

    Votes: 12 8.0%
  • Everettian MWI (Decoherence)

    Votes: 18 12.0%
  • de-Broglie Bohm interpretation

    Votes: 17 11.3%
  • Some other deterministic hidden variables

    Votes: 15 10.0%
  • Ensemble interpretation

    Votes: 13 8.7%
  • Other (please specify below)

    Votes: 21 14.0%

  • Total voters
    150
  • #36
Fyzix said:
I think it's time for the annual quantum interpretation poll.

Vote for which interpretation you currently think represents reality.

a funny reading THE CHURCHES

http://arxiv.org/PS_cache/quant-ph/pdf/0205/0205039v1.pdf

..."You will find all the religions with all their priests pitted in holy war—the Bohmians [3], the Consistent Historians [4], the Transactionalists [5], the Spontaneous Collapseans [6], the Einselectionists [7], the Contextual Objectivists [8], the outright Everettics [9, 10], and many more beyond that. They all declare to see the light, the ultimate light. Each tells us that if we will accept their solution as our savior, then we too will see the light."


[3] J. T. Cushing, A. Fine, and S. Goldstein, editors, Bohmian Mechanics and Quantum Theory: An Appraisal, (Kluwer, Dordrecht, 1996).
[4] R. B. Griffiths and R. Omn`es, “Consistent Histories and QuantumMeasurements,” Phys. Today 52(8), 26–31 (1999).
[5] J. G. Cramer, “An Overview of the Transactional Interpretation of Quantum Mechanics,” Int. J. Theor. Phys. 27, 227–236 (1988).
[6] G. C. Ghirardi and P. Pearle, “Dynamical Reduction Theories: Changing Quantum Theory so the Statevector Represents Reality,” PSA 1990: Proceedings of the Biennial Meeting of the Philosophy of Science Association, Vol. I, edited by A. Fine, M. Forbes, and L. Wessels (Philosophy of Science Association, East Lansing, MI, 1990), pp. 19–34.
[7] W. H. Zurek, “Decoherence, Einselection and the Existential Interpretation (The Rough Guide),” Phil. Trans. R. Soc. Lond. A 356, 1793–1821 (1998).
[8] P. Grangier, “Contextual Objectivity: A Realistic Interpretation of Quantum Mechanics,” quant-ph/0012122; P. Grangier, “Reconstructing the Formalism of Quantum Mechanics in the ‘Contextual Objectivity’ Point of View,” quant-ph/0111154.
[9] D. Deutsch, The Fabric of Reality: The Science of Parallel Universes—and its Implications, (AllenLane, New York, 1997).
[10] L. Vaidman, “The Many-Worlds Interpretation of QuantumMechanics,” in The Stanford Encyclopedia of Philosophy (Summer 2002 Edition), edited by E. N. Zalta (Stanford University, Stanford, CA, 2002). Available at http:// plato.stanford.edu/entries/qm-manyworlds/.


------------
let there be light ! ...lol...
but maybe without hilbert space !



.
 
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  • #37
I also have my own interpretation, but I probably won't want to start a discussion about it unless people are super-interested... although my interpretation might be the thermal interpretation. [smiling] I'm definitely going to check out that thread at some point. Mine has the transactional interpretation somewhere at its core (or something very similar); I also interpret duality with the 'wave-only view' that I once read about somewhere. I don't think particles exist as such, to me, these are discrete, localized 'wave packets.' Using words that pertain to a corpuscular nature of these wave packets are a nice way of describing interactions though.

I did read in a book that I have that most scientists today consider the wave field described by the wave function as a real field (and thus it possesses energy and momentum).
 
  • #38
Thanks, very interesting poll results - apparently Copenhagen isn't really mainstream anymore; just many alternative opinions (which is scientifically a healthy thing).

Note: I did not know about Stochastic Mechanics, so I plan to read up on it
http://onlinelibrary.wiley.com/doi/10.1111/j.1749-6632.1986.tb12456.x/abstract
 
  • #39
I always hated the Copenhagen interpretation.
 
  • #40


A. Neumaier said:
[..]
Deterministic chaos is an emergent feature of the thermal interpretation of quantum mechanics, obtained in a suitable approximation. Approximating a multiparticle system in a semiclassical way (mean field theory or a little beyond) gives an approximate deterministic system governing the dynamics of these expectations. This system is highly chaotic at high resolution. This chaoticity seems enough to enforce the probabilistic nature of the measurement apparatus. Neither an underlying exact deterministic dynamics nor an explicit dynamical collapse needs to be postulated.

The same system can be studied at different levels of resolution. When we model a dynamical system classically at high enough resolution, it must be modeled stochastically since the quantum uncertainties must be taken into account. But at a lower resolution, one can often neglect the stochastic part and the system becomes deterministic. If it were not so, we could not use any deterministic model at all in physics but we often do, with excellent success.

This also holds when the resulting deterministic system is chaotic. Indeed, all deterministic chaotic systems studied in practice are approximate only, because of quantum mechanics. If it were not so, we could not use any chaotic model at all in physics but we often do, with excellent success.

How is this thermal interpretation different from the stochastic mechanical interpretation?
Thanks,
Harald
 
  • #41
Dmitry67 said:
2 for Copenhagen?
Who?

Me. Why would anyone vote differently?
 
  • #42
Rap said:
Me. Why would anyone vote differently?

Why anyone would have a different opinion than you? Probably because different people reason differently, based on different received ideas. :smile:
 
  • #43
Vectronix said:
I always hated the Copenhagen interpretation.


DEAD

..."that the Copenhagen (non-)Interpretation isn't tenable"...



-----------
Now, "Psi-epistemic" models are the stuff (the modal approach).







.
 
  • #45
harrylin said:
Why anyone would have a different opinion than you? Probably because different people reason differently, based on different received ideas. :smile:

yoda jedi said:
..."that the Copenhagen (non-)Interpretation isn't tenable"...

Ok, sorry, but seriously, what is the main objection to the Copenhagen interpretation?
 
  • #46
Rap said:
Ok, sorry, but seriously, what is the main objection to the Copenhagen interpretation?

.-the act of measurement is treated classically.

.-observer dependent.


if wave function is regarded as ontologically real, then, there is not need of observer, if the wave function is epistemic, less yet.




.
 
  • #47
yoda jedi said:
.-the act of measurement is treated classically.

.-observer dependent.


if wave function is regarded as ontologically real, then, there is not need of observer, if the wave function is epistemic, less yet.




.

Isn't this weird? Copenhagen treats the wave function as calculation tool, but
when GRW treats it as real, they have to assume spontaneous collapse to avoid
observers. But how come the Copenhagen can get away by assuming it's observer
dependent and not spontaneous? In other words, why didn't the Copenhagen assume
the collapse is spontaneous too to avoid observer dependent?
 
  • #48
rodsika said:
Isn't this weird? Copenhagen treats the wave function as calculation tool, but when GRW treats it as real, they have to assume spontaneous collapse to avoid observers * . But how come the Copenhagen can get away by assuming it's observer dependent and not spontaneous? In other words, why didn't the Copenhagen assume the collapse is spontaneous* too to avoid observer dependent?




*To avoid observers (or mesurements) just dropping the projection postulate is enough.

*Because copenhagen is based on linear schrodinger equation (standard quantum mechanics) and CSL (and other models) models are non linear.


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the projection postulate, which asserts that upon measurement of a physical system, its state will ‘collapse’ (or be ‘projected’) to a state corresponding to the value found in the measurement.
 
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  • #49
yoda jedi said:
*To avoid observers (or mesurements) just dropping the projection postulate is enough.

*Because copenhagen is based on linear schrodinger equation (standard quantum mechanics) and CSL (and other models) models are non linear.


----------
the projection postulate, which asserts that upon measurement of a physical system, its state will ‘collapse’ (or be ‘projected’) to a state corresponding to the value found in the measurement.

But there is still a possibility that the observer and projection postulate in Copenhagen can be literal, isn't it? (Copenhagen just assumes it's calculation aid... but there is possibility it is real). Or has this idea been totally refuted already? How?
 
  • #50
yoda jedi said:
.-the act of measurement is treated classically.
.-observer dependent.

These are not objections to Copenhagen, they are descriptions of Copenhagen. What is the objection?

yoda jedi said:
if wave function is regarded as ontologically real, then, there is not need of observer, if the wave function is epistemic, less yet.

If I understand the terms "ontology" and "epistemology", I believe Copenhagen says they are neither. What is the objection?
 
  • #51
Ensemble interpretation ftw!
 
  • #52
Rap said:
Ok, sorry, but seriously, what is the main objection to the Copenhagen interpretation?
It uses terms without defining them:
1) what is the "system", the "measurement device" and the "observer"?
2) how is the boundary between the "system", the "measurenent device" and the "observer" defined?
3) why is the "system (its wave function) treated quantum mechanically, whereas the measurement device is treated classically?
4) why is the usual time evolution unitary (via U), whereas the "evolution" of the system (its state) during the measurement process is non-unitary (collapse, no U, no time symmetry)?
5) the collaps seems to be problematic in a relativistic context
 
  • #53
tom.stoer said:
It uses terms without defining them:
1) what is the "system", the "measurement device" and the "observer"?
2) how is the boundary between the "system", the "measurenent device" and the "observer" defined?
3) why is the "system (its wave function) treated quantum mechanically, whereas the measurement device is treated classically?
4) why is the usual time evolution unitary (via U), whereas the "evolution" of the system (its state) during the measurement process is non-unitary (collapse, no U, no time symmetry)?
5) the collaps seems to be problematic in a relativistic context

Does anyone know why in Copenhagen, the choice of what to measure determines what basis the quantum state will "collapse" onto a basis vector of?
 
  • #54
tom.stoer said:
It uses terms without defining them:
1) what is the "system", the "measurement device" and the "observer"?
2) how is the boundary between the "system", the "measurenent device" and the "observer" defined?
3) why is the "system (its wave function) treated quantum mechanically, whereas the measurement device is treated classically?
4) why is the usual time evolution unitary (via U), whereas the "evolution" of the system (its state) during the measurement process is non-unitary (collapse, no U, no time symmetry)?
5) the collaps seems to be problematic in a relativistic context

Do you know an interpretation that defines all its terms? (I don't know any though my thermal interpretation comes close to this ideal. Discussion of that please in https://www.physicsforums.com/showthread.php?t=490492 )

Relativistic collapse is treated adequaely in papers by Peres on relativistic measuremnt.

4. is because when observing a system, the system is not closed, hence not described unitarily.

The _only_ blemishes of the Copenhagen interpretation are that it cannot derive the collapse and needs to restrict attention to systems observed from the outside. Most other interpretastions have far worse problems.
 
  • #55
A. Neumaier said:
Do you know an interpretation that defines all its terms?
No.

A. Neumaier said:
4. is because when observing a system, the system is not closed, hence not described unitarily.
But there is no way to describe the system "system + device + observer" unitarily, either.
 
  • #56
tom.stoer said:
It uses terms without defining them:
1) what is the "system", the "measurement device" and the "observer"?
2) how is the boundary between the "system", the "measurenent device" and the "observer" defined?
3) why is the "system (its wave function) treated quantum mechanically, whereas the measurement device is treated classically?
4) why is the usual time evolution unitary (via U), whereas the "evolution" of the system (its state) during the measurement process is non-unitary (collapse, no U, no time symmetry)?
5) the collaps seems to be problematic in a relativistic context

Regarding 1, 2, and 3, the boundary is described by the decoherence approximation. Its like asking what is the boundary between the microscopic and macroscopic in statistical mechanics. Regarding 4, how is this an objection? What inconsistency is introduced by this fact?. Regarding 5, I would be interested in knowing what the problem is.
 
  • #57
Fyzix and others, you miss something very important. In Heisenberg interpretation, the unmeasured world ACTUALLY is what quantum theory represents it to be: a superposition of mere possibilities (Heisenberg called them potentia), unrealized tendencies for action. Nick said "an unobserved quantum entity possesses "more reality" than that available to ordinary objects because it can entertain in potentia a multitude of contradictory attributes which would be impossible for any fully actualized entity." That's right. And the magic of measurement grants one of these tendencies a more concentrate style of being.

What is a measurement? It bridges the worlds between Potentia and our concrete world. Measurement is like open sesame.. as fundamental as Space and Time.

This makes more sense than the superposition representing superpositions of universes in Many Worlds or mere calculational device in Copenhagen.

Heisenberg is the way to go. It's more likely than Many Worlds. If anyone can refute Heisenberg Potentia, please do it now before I got into Potentia mania. My question is. Before measurement, decoherence can influence the particles.. so what does it mean it is located in Potentia? Does this refute Heisenberg Intepretation?
 
  • #58
rodsika said:
Fyzix and others, you miss something very important. In Heisenberg interpretation, the unmeasured world ACTUALLY is what quantum theory represents it to be: a superposition of mere possibilities (Heisenberg called them potentia), unrealized tendencies for action. Nick said "an unobserved quantum entity possesses "more reality" than that available to ordinary objects because it can entertain in potentia a multitude of contradictory attributes which would be impossible for any fully actualized entity." That's right. And the magic of measurement grants one of these tendencies a more concentrate style of being.

What is a measurement? It bridges the worlds between Potentia and our concrete world. Measurement is like open sesame.. as fundamental as Space and Time.
I haven't heard of this Heisenberg interpretation, do you have a link? What defines a "measurement"? Could a machine make a measurement (even a hypothetical nano-machine) or can only humans do it? And what do you think of the point I made [post=3252397]here[/post] about the inelegance of treating collapse due to measurement as "real"?
The idea that collapse could be "real" just seems sort of silly to me given what's known about decoherence, since we know if we have an experiment where a quantum system interacts with a bunch of measuring-device like systems which leave some sort of records of their results, and we model all these interactions using deterministic wavefunction evolution and only at the very end do we apply "collapse", the records will show something that looks precisely like a series of earlier "collapses" even though in our model it was just decoherence. The idea that you could have this weird hybrid of "real collapse" and decoherence which, upon collapse of measurement records yields records that look precisely identical to those caused by real collapse, just seems way to contrived and coincidental to be plausible to me.
 
  • #59
JesseM said:
I haven't heard of this Heisenberg interpretation, do you have a link? What defines a "measurement"? Could a machine make a measurement (even a hypothetical nano-machine) or can only humans do it? And what do you think of the point I made [post=3252397]here[/post] about the inelegance of treating collapse due to measurement as "real"?

The Heiserberg Interpetation is in Nick Herbert book called "Quantum Reality". Nick said:

"Quantum Reality #8. The duplex world of Werner Heisenberg (The world is twofold, consisting of potentials and actualities) Most physicists believe in the Copenhagen interpretation, which states that there is no deep reality (QR #1) and observation creates reality (QR #2). What these two realities have in common is the assertion that only phenomena are real; the world beneath phenomena is not.

One question which this position immediately brings to mind is this: "If observation creates reality, what does it create this reality out of? Are phenomena crated out of sheer nothingness or out of some more substantial stuff"" Since the nature of unmeasured reality is unobservable by definition, many physicists dismiss such questions as meaningless on pragmatic grounds.

However, since it describes measured reality with perfect exactness, quantum theory must contain some clues concerning the raw material out of which phenomena spring."

Try to read the rest at Amazon 30 page free views. Type Heisenberg or Quantum Reality #8 in the search bar inside the book page.

The logic is like this. In the deprived world of Copenhagen where they only know it as calculational tool, collapse may seem strange. But if you will treat the world as consisting of two realities... potentialities and concrete world. Then collapse is merely to change from potentialities to concrete world. Human observers are not required. Even hypothetical nano machines can do it. Just imagine the potentialities on the verge of orgasm. Measurement is just the release of it. This defines measurement or tendencies for release in any situation that calls for it. So what if collapse and born rule is arbitrary. Even our 20+ constants of nature is arbitrary. It's part of our world.

But I'm bothered by decoherence just like you described in the link you gave. But maybe the Potentialities is wave-like. So any wave from enivorment can affect it (the electron passing thru the gas decohering it). If we'd treat the Potentia as composing of waves. No problem about it. Heisenberg Interpretation is very intuitive and better than Many Worlds or plain deprived Copenhagen. Isn't it. What is your other objection to it.
 
  • #60
JesseM said:
I haven't heard of this Heisenberg interpretation, do you have a link? What defines a "measurement"? Could a machine make a measurement (even a hypothetical nano-machine) or can only humans do it? And what do you think of the point I made [post=3252397]here[/post] about the inelegance of treating collapse due to measurement as "real"?

After more time in the internet. I found the original source of Heisenberg material. He published the book Physics and Philisophy in 1958 and the following paragraph in

http://www.marxists.org/reference/subject/philosophy/works/ge/heisenb3.htm

It is important and may be the source of his views or possible misinterpretation by physicsts like Nick Herbert and Henry Stapp. Therefore let us analyze it completely:

"Now, the theoretical interpretation of an experiment starts with the two steps that have been discussed. In the first step we have to describe the arrangement of the experiment, eventually combined with a first observation, in terms of classical physics and translate this description into a probability function. This probability function follows the laws of quantum theory, and its change in the course of time, which is continuous, can be calculated from the initial conditions; this is the second step. The probability function combines objective and subjective elements. It contains statements about possibilities or better tendencies ('potentia' in Aristotelian philosophy), and these statements are completely objective, they do not depend on any observer; and it contains statements about our knowledge of the system, which of course are subjective in so far as they may be different for different observers. In ideal cases the subjective element in the probability function may be practically negligible as compared with the objective one. The physicists then speak of a 'pure case'."

Now go to this http://fs-morente.filos.ucm.es/docentes/suarez/papers/SHPMP_Quantum propensities_May07.pdf where someone is analyzing it. She said:

"But a close reading of the book reveals a very complex mixture of interpretational elements, only some compatible with what we nowadays would identify as a Copenhagen interpretation. A commitment to reading the quantum probabilities at least in part in terms of Aristotelian potentialities stands out among the elements apparently alien to the Copenhagen view: ‘‘The probability function combines objective and subjective elements... "

The rest in in the quote above.

Now the most important question. Nick Herbert and Henry Stapp emphasized those "Potentia" are really there and not figurative. Pls. analyze unbiasedly. What do you think Heisenberg meant or the context of his statement? Do you think Heisenberg believed they are real or assumed the Potentia were possible?
 
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  • #62
rodsika said:
"Quantum Reality #8. The duplex world of Werner Heisenberg (The world is twofold, consisting of potentials and actualities) Most physicists believe in the Copenhagen interpretation, which states that there is no deep reality (QR #1) and observation creates reality (QR #2). What these two realities have in common is the assertion that only phenomena are real; the world beneath phenomena is not.

You misunderstand the Copenhagen interpretation. The CI does not deny deep reality, it simply does not deal with a reality that cannot be experienced scientifically. By scientifically, I mean by repeatable measurements (but not repeatable results of those measurements). If deep reality were God, CI is not atheistic, it is agnostic. "Atheist" means "there is no God", agnostic means "I don't know".

It follows that CI does not say that "observation creates reality" since it is agnostic on the subject of reality. CI does not say that "the world beneath phenomena is not real", it is simply agnostic on the subject.

CI says that "objective reality" as we experience it is a classical concept, a classical approximation, and to cling to it without justification is improper. If there is an objective reality in the quantum realm, it has yet to be discovered, and it likely will not be found by trying to concoct a theory which attempts to jam the classical concept into the quantum realm.
 
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  • #63
rodsika said:
But there is still a possibility that the observer and projection postulate in Copenhagen can be literal, isn't it? (Copenhagen just assumes it's calculation aid... but there is possibility it is real). Or has this idea been totally refuted already? How?


copenhagen without observer/measurements, without collapse ?

all versions of copenhagen involve a collapse.
without observer/measurement no collapse.


projection postulate dropped:
many worlds, bohmian mechanics, modal approach.


.
 
  • #64
rodsika said:
The logic is like this. In the deprived world of Copenhagen where they only know it as calculational tool, collapse may seem strange...

As one who favors the CI, this reminds me of the theory of planetary orbits. Medieval scholars believed the planets were pushed around by angels. Then Newton came up with orbital mechanics - a calculational tool to calculate the orbits of the planets without recourse to angels. The theory was "deprived" of its angels. Trying to recover "reality" from the CI is like trying to recover the angels, wondering what goes on in their minds that causes them to push the planets around according to an inverse square law. I mean, sure, maybe angels really are pushing the planets around according to the equations of orbital mechanics, but most physicists don't bother with the idea, since it is not a concept that can be decided by any repeatable measurement. Its not scientific. In particular, the "many worlds" interpretation is especially aggravating to one who favors the CI. It is a completely untestable theory that makes the most simplistic attempt to recover the angels, because, well, there just HAS to be angels, doesn't there?
 
  • #65
Rap said:
As one who favors the CI, this reminds me of the theory of planetary orbits. Medieval scholars believed the planets were pushed around by angels. Then Newton came up with orbital mechanics - a calculational tool to calculate the orbits of the planets without recourse to angels. The theory was "deprived" of its angels. Trying to recover "reality" from the CI is like trying to recover the angels, wondering what goes on in their minds that causes them to push the planets around according to an inverse square law. I mean, sure, maybe angels really are pushing the planets around according to the equations of orbital mechanics, but most physicists don't bother with the idea, since it is not a concept that can be decided by any repeatable measurement. Its not scientific. In particular, the "many worlds" interpretation is especially aggravating to one who favors the CI. It is a completely untestable theory that makes the most simplistic attempt to recover the angels, because, well, there just HAS to be angels, doesn't there?

What I'm simply saying is that we must take Copenhagen literally. Heisenberg himself said in 1958:

"Now, the theoretical interpretation of an experiment starts with the two steps that have been discussed. In the first step we have to describe the arrangement of the experiment, eventually combined with a first observation, in terms of classical physics and translate this description into a probability function. This probability function follows the laws of quantum theory, and its change in the course of time, which is continuous, can be calculated from the initial conditions; this is the second step. The probability function combines objective and subjective elements. It contains statements about possibilities or better tendencies ('potentia' in Aristotelian philosophy), and these statements are completely objective, they do not depend on any observer; and it contains statements about our knowledge of the system, which of course are subjective in so far as they may be different for different observers. In ideal cases the subjective element in the probability function may be practically negligible as compared with the objective one. The physicists then speak of a 'pure case'."

Heisenberg said the probability function or wave function combines objective and subjective elements. Here objective means that before measurement the wave function really exist in some netherworld. And Collapse is real too. In Copenhagen, Bohr is pragmatic of it all (meaning he didn't want to explore the nature of what is beneath it all). Hence the origin of "shut up and calculate". Are you siding with Bohr too in the "shut up and calculate" approach?
 
  • #66
rodsika said:
Heisenberg said the probability function or wave function combines objective and subjective elements. Here objective means that before measurement the wave function really exist in some netherworld. And Collapse is real too. In Copenhagen, Bohr is pragmatic of it all (meaning he didn't want to explore the nature of what is beneath it all). Hence the origin of "shut up and calculate". Are you siding with Bohr too in the "shut up and calculate" approach?

Again, I interpret "objective" as a classical concept. If you must use probability to deal with a classical problem, and then go searching for "hidden variables", you will always find them. This is not true in QM. The wave function is a calculational tool, just as Newtons law of gravitation is a calculational tool, it exists in the classical world and correctly predicts the outcome of future measurements, therefore it is objective. The idea that it "really exists" in some netherworld is not a scientific statement, it is untestable. The collapse is objective in the same sense. Regarding "shut up and calculate", the question arises "shut up about what?" Shut up about untestable, and therefore unscientific, ponderings? Yes, shut up. Shut up about searching for the next insight, looking at QM from every available perspective, trying to understand what the **** is going on, no, never.

In what sense is relativity not a case of "shut up and calculate"? Relativity has similar problems. Relativistic physics exists in an unchanging four-dimensional spacetime. There is no way to calculate what is "now". You cannot use relativity to prove that the present time on Earth is April 22, 2011, some 14 billion years after the birth of the universe. That fact is outside the theory, much like the wavefunction collapse. Like the wavefunction collapse, it is where words like "consciousness" start to pop up.
 
  • #67
Rap said:
Again, I interpret "objective" as a classical concept. If you must use probability to deal with a classical problem, and then go searching for "hidden variables", you will always find them. This is not true in QM. The wave function is a calculational tool, just as Newtons law of gravitation is a calculational tool, it exists in the classical world and correctly predicts the outcome of future measurements, therefore it is objective. The idea that it "really exists" in some netherworld is not a scientific statement, it is untestable. The collapse is objective in the same sense. Regarding "shut up and calculate", the question arises "shut up about what?" Shut up about untestable, and therefore unscientific, ponderings? Yes, shut up. Shut up about searching for the next insight, looking at QM from every available perspective, trying to understand what the **** is going on, no, never.

In what sense is relativity not a case of "shut up and calculate"? Relativity has similar problems. Relativistic physics exists in an unchanging four-dimensional spacetime. There is no way to calculate what is "now". You cannot use relativity to prove that the present time on Earth is April 22, 2011, some 14 billion years after the birth of the universe. That fact is outside the theory, much like the wavefunction collapse. Like the wavefunction collapse, it is where words like "consciousness" start to pop up.

 
Then you need to hear the words of the master, Nick Herbert who in stated in
Quantum Reality:

"Legendary King Midas never knew the feel of silk or a human hand after
everything he touched turned to gold. Humans are stuck in a similar Midas-like
predicament: we can't directly experience the true texture of reality because
everything we touch turns to matter"
<snip>

"Heisenberg's potential represents a novel kind of physical existence standing
"halfway between the idea of the event and the actual event itself." Until it's
actually observed, a quantum entity must be considered "less real" than the same
entity observed. On the other hand, an unobserved quantum entity possesses "more
reality" than that available to ordinary objects because it can entertain in
potentia a multitude of contradictory attributes which would be impossible for
any fully actualized entity."

<end>

What are the experiment consequence if Heisenberg was right. Well . If one can
totally isolate a cat inside a 100% hypothetical isolation box that can even
shield against the geometry of spacetime. Then the cat would literally turn into
ghost of potentia or possibilities. That's right. Instead of splitting into many
worlds with own independent histories. That cat would be literally in a
superposition. Jesse argued what if the cat was shown drawing of George
Washington and a duck in the 2 quantum choices. Then it would be in a potentia
or literal superposition with both knowledge of them. Here it is possible
becaues the brain won't exist in literal form, but as ghost-like smeared
superposition of brain cells which can belong to both histories that weren't
there.

Many Worlds has a severe problem in the "measure" mentioned by Everett. For
example, if we make a photon hit an angled sheet of glass, we can make the
probability of reflection anything we like just by adjusting the angle, say,
1/5. But in many worlds, splitting is equal. So how is it distributed. This is
the severe "measure" problem in Many Worlds that is even harder than the
collapse postulate. One can treat the collapse postulate arbitrariness just like
the constants of nature values being arbitrary. They are simply part of the
world. Here Many Worlds is thus refuted.
 
  • #68
rodsika said:
 
That cat would be literally in a
superposition. Jesse argued what if the cat was shown drawing of George
Washington and a duck in the 2 quantum choices. Then it would be in a potentia
or literal superposition with both knowledge of them. Here it is possible
becaues the brain won't exist in literal form, but as ghost-like smeared
superposition of brain cells which can belong to both histories that weren't
there.

What if instead of a cat, it was a person. Upon opening the box, how would the person describe the experience?
 
  • #69
Rap said:
What if instead of a cat, it was a person. Upon opening the box, how would the person describe the experience?

Even the cat example is not possible because no macroscopic object can be
shielded from the geometry of spacetime. Supposed it could be shield. Well. We
would be in ghost smeared state too. This is obvious because there is no
geometry of spacetime inside the box, to define positions, so no positions would
exist. Hence the person would describe the experience as living in limbo or
ghost-like like in dreamy state where no definite things occur. This is possible isn't it.
Refute this.
 
  • #70
I think that QM is not finished, so its interpretation is also not yet finished.
This option was not in the poll.
1. Interpretation for a microscopic (quantum) observer is not known.
2. Quantum gravity is not known, but it is a BASE theory of quantum mechanics. Space and time are outer parameters for QM, what is not correct.
3. Consciousness is not yet explained (and quantum consciousness is not yet rejected by Tegmark).

It is not necessary to introduce hidden variables, but known paramaters should be included and explained, not only as outer parameters.
 
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<h2>1. What is the purpose of the Quantum Interpretation Poll (2011)?</h2><p>The Quantum Interpretation Poll (2011) was conducted to gather data on the opinions and beliefs of scientists and researchers regarding the different interpretations of quantum mechanics.</p><h2>2. How was the Quantum Interpretation Poll (2011) conducted?</h2><p>The poll was conducted through an online survey, where participants were asked to select their preferred interpretation of quantum mechanics and provide a brief explanation for their choice.</p><h2>3. What were the results of the Quantum Interpretation Poll (2011)?</h2><p>The results of the poll showed that the Copenhagen interpretation was the most popular among scientists, followed by the Many-Worlds interpretation and the Pilot-Wave interpretation.</p><h2>4. Were there any notable differences in opinions among scientists in the Quantum Interpretation Poll (2011)?</h2><p>Yes, there were notable differences in opinions among scientists, with some preferring more traditional interpretations such as Copenhagen, while others favored newer interpretations like Many-Worlds or Pilot-Wave.</p><h2>5. How has the Quantum Interpretation Poll (2011) impacted the scientific community?</h2><p>The poll has sparked discussions and debates among scientists about the different interpretations of quantum mechanics, leading to further research and exploration in this field. It has also provided insight into the current beliefs and opinions of scientists on this topic.</p>

1. What is the purpose of the Quantum Interpretation Poll (2011)?

The Quantum Interpretation Poll (2011) was conducted to gather data on the opinions and beliefs of scientists and researchers regarding the different interpretations of quantum mechanics.

2. How was the Quantum Interpretation Poll (2011) conducted?

The poll was conducted through an online survey, where participants were asked to select their preferred interpretation of quantum mechanics and provide a brief explanation for their choice.

3. What were the results of the Quantum Interpretation Poll (2011)?

The results of the poll showed that the Copenhagen interpretation was the most popular among scientists, followed by the Many-Worlds interpretation and the Pilot-Wave interpretation.

4. Were there any notable differences in opinions among scientists in the Quantum Interpretation Poll (2011)?

Yes, there were notable differences in opinions among scientists, with some preferring more traditional interpretations such as Copenhagen, while others favored newer interpretations like Many-Worlds or Pilot-Wave.

5. How has the Quantum Interpretation Poll (2011) impacted the scientific community?

The poll has sparked discussions and debates among scientists about the different interpretations of quantum mechanics, leading to further research and exploration in this field. It has also provided insight into the current beliefs and opinions of scientists on this topic.

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