Quantum Confusion: Philosophical Assumptions Behind Mechanics

In summary, Quantum Mechanics is a highly accurate mathematical theory that can predict the probability of experimental results. However, when trying to explain the theory in human language, it has led to various interpretations and paradoxes. These interpretations aim to provide a description of what is "actually happening" in nature, but they are not testable and therefore not considered part of science. One example is the Schrodinger's cat paradox, which highlights the strange behavior of particles at a quantum level. While it is known that particles can exist in a superposition of states, it is uncertain if this can also apply to larger objects such as a cat. The study of QM continues to be a fascinating and ever-evolving field of
  • #36
wittgenstein said:
Is what is inside the box an objective reality ( before being measured) or not.
I don't think there's a simple yes/no answer to that. I'm not even sure how to make sense of the question. Is it about what's actually in the box, or about the mathematical representation of it? If you meant the former, the question gets really weird, because now the meaning of the question depends on its answer.

wittgenstein said:
That is why I gave the example of the impregnable box with a brick or water in it. A logical positivist would say that asking what is inside that box is a meaningless question.
You seem to be asking if there's water in the box given that you have put water into it, and then made the necessary arrangements to make sure that it's impossible in principle to determine the contents of the box. The problem with this scenario is that the theory we're supposed to use to answer the question doesn't allow such arrangements to be made. So QM neither agrees nor disagrees with this positivist, because you're describing a scenario that's inconsistent with QM.
 
Physics news on Phys.org
  • #37
ZapperZ said:
A case in point is a paper that was published within the past 2 weeks. If you are not capable of understanding the actual paper, one should at least read a review of it on PhysicsWorld website:.

Yes, but how does this change anything here?

QM says models of reality based on the principle of locality, of effective cause, fail. Experiments have been cutting down the final loopholes, which is certainly important to know. But the weight of evidence was already huge.

So now we should be cheerfully moving on to models of reality that are not fundamentally dependent on the principle of locality (but where locality may still be an emergent property of course).
 
  • #38
ZapperZ said:
... A case in point is a paper that was published within the past 2 weeks. If you are not capable of understanding the actual paper, one should at least read a review of it on PhysicsWorld website:

http://physicsworld.com/cws/article/news/44580

WOW! JUST WOW!

Many many thanks ZapperZ! This is just amazing! The world is non-local AND non-separable!


@wittgenstein: What did I tell you? PF will give you exciting news! :wink:
 
  • #39
apeiron said:
Yes, but how does this change anything here?

It changed EVERYTHING here. It answered the OP's question with respect to what the physics is currently saying. It also points to legitimate references that not only provide the theoretical description of realism, but also the supportingexperimental evidence which shows that this isn't simply a matter of TASTES. These have been severely lacking in the discussion so far till now!

QM says models of reality based on the principle of locality, of effective cause, fail. Experiments have been cutting down the final loopholes, which is certainly important to know. But the weight of evidence was already huge.

Then you just missed the point of the Leggett inequality. The latest set of experiments are addressing the possibility that, even when the locality principle is relaxed, i.e. one allows for non-locality, realism, or more specifically, a large number of classes of realism, still cannot be saved. It rules out large number of non-local realism models.

Zz.
 
  • #40
@ZapperZ: How about moving this thread back to Quantum Physics? This is not Philosophy, it’s wonderful QM news! :wink:
 
  • #41
DevilsAvocado said:
@ZapperZ: How about moving this thread back to Quantum Physics? This is not Philosophy, it’s wonderful QM news! :wink:

No way! The people who are doing most of the discussion on here are not interested in the physics, or the accuracy of the physics they are discussing. They're more interested in finding "meanings" behind these things, i.e. things that can be discussed based on personal tastes with no possibility of any empirical tests.

Zz.
 
  • #42
ZapperZ said:
No way!

Okay, just asking.

ZapperZ said:
It rules out large number of non-local realism models.

Can you mention any models that survive? dBB?
 
  • #43
ZapperZ said:
It changed EVERYTHING here. It answered the OP's question with respect to what the physics is currently saying. It also points to legitimate references that not only provide the theoretical description of realism, but also the supportingexperimental evidence which shows that this isn't simply a matter of TASTES. These have been severely lacking in the discussion so far till now!

The reference is still just confirmation of a result demonstrated in 2007. So saying it changes "everything" sounds crackpot to me. I can't see that it changes anything so far as the thread is concerned.

Anyone who has yet to give up local realism and start seeking the alternatives is plainly not paying attention.

What puzzles me here is why you go on about the data when the data is accepted. Now we need to move on to the theoretical and metaphysical consequences. Which has nothing whatsoever to do with tastes.

ZapperZ said:
Then you just missed the point of the Leggett inequality. The latest set of experiments are addressing the possibility that, even when the locality principle is relaxed, i.e. one allows for non-locality, realism, or more specifically, a large number of classes of realism, still cannot be saved. It rules out large number of non-local realism models.

Again, what does this confirmation add to Zeilinger's 2007 result? And anyone who hadn't chucked out local realism with Aspect's original 1982 experiments could only have been grasping at straws.

So both locality and realism have for sure now both bitten the dust. What metaphysics do you suggest to replace them?

As I have said often enough, I opt for vagueness over realism, and systems causality over the principle of locality (ie: Aristotle's four causes over just efficient cause alone).

Given this is a philosophy forum, do you have any concrete metaphysical view to offer now that local realism is agreed to be a dead parrot, not merely resting on the bottom of its cage or pining for the fjords?
 
  • #44
apeiron said:
The reference is still just confirmation of a result demonstrated in 2007. So saying it changes "everything" sounds crackpot to me. I can't see that it changes anything so far as the thread is concerned.

It answered the OP. In case you forgot, this was what was asked:

I am confused by the philosophical assumptions behind Quantum Mechanics. Are physicists logical positivists? The reason I ask that is because it seems that they believe that if something in intrinsically unknowable it does not exist as a truthful proposition. For example before the collapse what is happening? Suppose, I have an impregnable box ( even logically necessarily impregnable) . I do not know if there is a brick ( particle) or water ( wave) inside.
Does that mean that one possibility is not correct and the other is also not correct? I am totally confused! Please help! [/quote]

The OP WAS asking about realism from the point of view of what we know about QM. This directly answers that question with the LATEST set of results fresh from 2 weeks ago. You offered none.

Anyone who has yet to give up local realism and start seeking the alternatives is plainly not paying attention.

This latest result has nothing to do with "local realism". It has everything to do with non-local realism!

What puzzles me here is why you go on about the data when the data is accepted. Now we need to move on to the theoretical and metaphysical consequences. Which has nothing whatsoever to do with tastes.

It does, when you still can't see the significant difference with this latest result.
Again, what does this confirmation add to Zeilinger's 2007 result? And anyone who hadn't chucked out local realism with Aspect's original 1982 experiments could only have been grasping at straws.

So both locality and realism have for sure now both bitten the dust. What metaphysics do you suggest to replace them?

As I have said often enough, I opt for vagueness over realism, and systems causality over the principle of locality (ie: Aristotle's four causes over just efficient cause alone).

Given this is a philosophy forum, do you have any concrete metaphysical view to offer now that local realism is agreed to be a dead parrot, not merely resting on the bottom of its cage or pining for the fjords?

Zeilinger's result, especially the one testing the GHZ inequality, is DIFFERENT than the Leggett test! One only needs to read the actual paper that is referenced in that Physics World article!

If it is no different, then why is there Leggett's inequality? You're basically saying that there's no difference between it and, say, Bell inequality, and that all these publications are doing nothing but repetitions of well-known results! I suggest you write your rebuttal to those papers.

Zz.
 
  • #45
Fredrik said:
The most useful way to think of QM is not as a description of reality, but as a set of rules that tells us how to calculate probabilities of possible results of experiments.
i agree.
just a phenomenological theory.
a epistemic one.

apeiron said:
The reference is still just confirmation of a result demonstrated in 2007. So saying it changes "everything" sounds crackpot to me. I can't see that it changes anything so far as the thread is concerned.

Anyone who has yet to give up local realism and start seeking the alternatives is plainly not paying attention.

What puzzles me here is why you go on about the data when the data is accepted. Now we need to move on to the theoretical and metaphysical consequences. Which has nothing whatsoever to do with tastes.
Again, what does this confirmation add to Zeilinger's 2007 result? And anyone who hadn't chucked out local realism with Aspect's original 1982 experiments could only have been grasping at straws.

i agree, just confirming nonlocality (non-separability)
i posted it, at:
Another for Leggett inequalities.
Dec17-10, 04:36 PM
https://www.physicsforums.com/showthread.php?t=457422

apeiron said:
A third metaphysical alternative here is to view the "before" state as vague, a state of unformed potential. So a potential that can "really exist". Yet is also at the same time a (formally maximal) form of not existing.

or just that counterfactual definiteness is not a necessary condition of reality.

"If, without in any way disturbing a system, we can predict with certainty (i.e., with
probability equal to unity) the value of a physical quantity, then there exists an
element of physical reality corresponding to this physical quantity." (Realism accord EPR)

value of ? ...a value of something, what is something ? something that exist, no nothing
that is, be REAL is exist in whatever form (but in consistent way and autonomous).

Reality is the state of things as they actually exist.

BEING QUA BEING:
"being qua being", or being understood as being. It examines what can be asserted about anything that exists just because of its existence and not because of any special qualities it has.

That is VALUES
not special qualities - not specific values....
 
Last edited:
  • #46
ZapperZ said:
The OP WAS asking about realism from the point of view of what we know about QM. This directly answers that question with the LATEST set of results fresh from 2 weeks ago. You offered none.

I think if you check back you will find that I answered the OP central question, commenting that there is in fact a third metaphysical position that is possible beyond either total local realism, or zero local realism.

You keep insisting the latest data makes EVERY difference. I don't see it makes any difference. Total local realism should long ago have been abandoned by any reasonable person. Which means the actual alternatives come down to a non-position - reality is just weird, get over it - or, as I suggest, we can consider a systems-based metaphysical perspective.

ZapperZ said:
This latest result has nothing to do with "local realism". It has everything to do with non-local realism!

But the OP already was assuming the extreme cases. So both the principle of locality, and of realism, were deemed violated. At least that seems fair to impute from what was indeed a rather confused presentation of the issues. Or can you show where the OP was in fact attempting to preserve realism while conceding non-locality, and so where the Leggett data becomes relevant?

ZapperZ said:
Zeilinger's result, especially the one testing the GHZ inequality, is DIFFERENT than the Leggett test! One only needs to read the actual paper that is referenced in that Physics World article!

So you want to argue that this Nature paper was not about Leggett's inequality. Really?

S. Gröblacher, T. Paterek, R. Kaltenbaek, C. Brukner, M. Zukowski, M. Aspelmeyer, A. Zeilinger, An experimental test of non-local realism, Nature 446, 871-875 (2007)

GHZ was back in the 1990s. Yes?
 
  • #47
yoda jedi said:
or just that counterfactual definiteness is not a necessary condition of reality.

If you accept the principle of vagueness, then you are indeed saying that reality is not fundamentally definite.

This was what CS Peirce was trying to articulate with his logic of vagueness. Reality is indeterminate at base. That is the big paradigm shift to make - to actually give up a belief that definite outcomes must have definite initiating conditions. Then you can begin to think about the kind of causal machinery that can develop a self-organised definiteness from the fundamentally indefinite.

Peirce's system was the triadic machinery of semiosis. It was a good start.
 
  • #48
apeiron said:
If you accept the principle of vagueness, then you are indeed saying that reality is not fundamentally definite.

This was what CS Peirce was trying to articulate with his logic of vagueness. Reality is indeterminate at base. That is the big paradigm shift to make - to actually give up a belief that definite outcomes must have definite initiating conditions. Then you can begin to think about the kind of causal machinery that can develop a self-organised definiteness from the fundamentally indefinite.

Peirce's system was the triadic machinery of semiosis. It was a good start.

yes, i basically agree.
tentatively, because who knows, maybe there are definite values, if not, it doesn't matter because we have vagueness or indefiniteness,
...a state of unformed potential (I thought the same thing, in almost identical terms)
 
Last edited:
  • #49
apeiron said:
I think if you check back you will find that I answered the OP central question, commenting that there is in fact a third metaphysical position that is possible beyond either total local realism, or zero local realism.

But your "offering" has no physical validity! You didn't back it up with anything to be able to differentiate it from the rest. You just TOLD him and that's that! I do not consider that to be valid.

You keep insisting the latest data makes EVERY difference. I don't see it makes any difference. Total local realism should long ago have been abandoned by any reasonable person. Which means the actual alternatives come down to a non-position - reality is just weird, get over it - or, as I suggest, we can consider a systems-based metaphysical perspective.



But the OP already was assuming the extreme cases. So both the principle of locality, and of realism, were deemed violated. At least that seems fair to impute from what was indeed a rather confused presentation of the issues. Or can you show where the OP was in fact attempting to preserve realism while conceding non-locality, and so where the Leggett data becomes relevant?



So you want to argue that this Nature paper was not about Leggett's inequality. Really?

S. Gröblacher, T. Paterek, R. Kaltenbaek, C. Brukner, M. Zukowski, M. Aspelmeyer, A. Zeilinger, An experimental test of non-local realism, Nature 446, 871-875 (2007)

GHZ was back in the 1990s. Yes?

OK, I mistook your "Zeilinger" reference for something else. I referenced this work at Groblacher work, which I've highlighted already elsewhere.

https://www.physicsforums.com/showpost.php?p=1307660&postcount=40

And yes, there IS a difference. The Groblacher's experiment ruled out a small class of non-local realism. But this doesn't make more stringent test of the Leggett inequality. In fact, there were two more experimental work published that made further tests on this:

T. Paterek et al. "Experimental Test of Non-Local Realistic Theories Without The Rotational Symmetry Assumption", Phys. Rev. Lett. 99, 210406 (2007).

Cyril Branciard et al. " Experimental Falsification of Leggett's Nonlocal Variable Model", Phys. Rev. Lett. 99, 210407 (2007).

No one single experiment can be convincing enough! And especially with experiments like this where sampling issues and loopholes could be present, no one experiment can make a totally convincing argument that rules out a whole class of concept!

Until I brought it up, no one made ANY kind of references to such issues that presented theoretical and experimental support for our understanding of realism. All we got were handwaving argument with no indication of any degree of validity to support such an argument.

Zz.
 
  • #50
About Non-local Realism and Leggett’s inequality:

I think there’s been some "journalistic misinterpretations". Yes, in http://physicsworld.com/cws/article/news/44580" [Broken] they say "a large class of nonlocal theories". What they don’t say is that:

The de Broglie-Bohm theory does not satisfy Leggett’s assumptions.

(I think it has do with the fact that in dBB the photons do not have a well-defined value of polarization, but instead it is determined non-locally via the quantum potential.)

So, Non-local Realism is alive and kicking as before! :wink:

Readdressing OP’s question on what’s in the "impregnable box", there’s still three options:
  • locality=true/realism=false

  • locality=false/realism=true

  • locality=false/realism=false
And Local Realism is, as before, a dead parrot that should be returned to Michael Palin's pet shop. :smile:
 
Last edited by a moderator:
  • #51
Q_Goest said:
lol That's one of my favorite MP skits.

Well it’s Christmas time, here you go: :smile:

https://www.youtube.com/watch?v=<object width="640" height="385"><param name="movie" value="http://www.youtube.com/v/npjOSLCR2hE&hl=en_US&fs=1&rel=0&color1=0x402061&amp;color2=0x9461ca"></param><param [Broken] name="allowFullScreen" value="true"></param><param name="allowscriptaccess" value="always"></param><embed src="http://www.youtube.com/v/npjOSLCR2hE&hl=en_US&fs=1&rel=0&color1=0x402061&amp;color2=0x9461ca" type="application/x-shockwave-flash" allowscriptaccess="always" allowfullscreen="true" width="640" height="385"></embed></object>
 
Last edited by a moderator:
  • #52
DevilsAvocado said:
So, Non-local Realism is alive and kicking as before! :wink:


that's true.
 
  • #53
yoda jedi said:
yes, i basically agree.
tentatively, because who knows, maybe there are definite values, if not, it doesn't matter because we have vagueness or indefiniteness or unsharpness,
...a state of unformed potential (I thought the same thing, in almost identical terms)


.....Quantum mechanical position is typically indeterminate but can, in principle, be measured precisely (i.e., with arbitrary accuracy) and be determinate (to a high degree) immediately after measurement (but with the result that momentum is disturbed
and indefinite, and vice-versa). However, at least one of the two quantities, position and momentum (and typically each of these), is also limited in its determination. In the case of quantum systems, properties can be considered objectively indefinite and sets of propositions regarding them complementary to specific other sets of propositions, so that it becomes impossible to jointly attribute them. Thus, quantum mechanics involves a unique form of vagueness...

.....The novel feature in the description of physical reality brought about with the advent of quantum mechanics is thus the fact that physical properties will not in general be either actual or absent but indefinite or indeterminate.....

...as an element of empirical reality, an actual property has the capacity to act, to actualize an indicative measurement outcome if a measurement is performed. By contrast, when a property is absent it has no capacity to act. We propose the idea of an interpolation between the two extremes of full actuality and absence of a property...

...It is also appropriate to think of an indeterminate property as an element of unsharp reality...
 
  • #54
wittgenstein said:
I am confused by the philosophical assumptions behind Quantum Mechanics. Are physicists logical positivists? The reason I ask that is because it seems that they believe that if something in intrinsically unknowable it does not exist as a truthful proposition. For example before the collapse what is happening? Suppose, I have an impregnable box ( even logically necessarily impregnable) . I do not know if there is a brick ( particle) or water ( wave) inside. Does that mean that one possibility is not correct and the other is also not correct? I am totally confused! Please help!

Logical positivists embraced two standards of truth: analytic and synthetic.

Something can either be true by definition [or logically impregnable] or confirmed as true empirically. Others, however, soon pointed out that even scientific "truths" reflect only assumptions made regarding long standing correlations. And correlations are not necessarily a true reflection of cause and effect.

Consequently, we can't really know anything is true. A least not for all people and for all time and in all sets of circumstances.

Karl Popper then introduced the idea of falsifying propositions even if we can never actually verify them.
 
Last edited:
  • #55
ZapperZ said:
But your "offering" has no physical validity! You didn't back it up with anything to be able to differentiate it from the rest. You just TOLD him and that's that! I do not consider that to be valid.

So where does this leave rational concepts then? You know, the very stuff of logic, maths and metaphysics? If I suggest 1+1=2, do I have to now present the empirical evidence here?

I told him about vagueness - a well-established philosophical concept. I'm happy to refer anyone to a whole thread of resources on vagueness I have already compiled in this forum.

You can accuse the OP being hazy on both the theoretical concepts and the empirical observations (though I thought we could all pretty easily interpret his essential query). But a more sophisticated level of discussion (especially in a philosophy forum) must show its familiarity with both the physics and metaphysics involved. Yet your responses always sound like someone saying ooh yuck, personal tastes, when it comes to the conceptual aspects of a discussion.
 
  • #56
apeiron said:
So where does this leave rational concepts then? You know, the very stuff of logic, maths and metaphysics? If I suggest 1+1=2, do I have to now present the empirical evidence here?

What you are suggesting is nowhere near such logic as 1+1=2. If it is, we won't have to perform experimental test of it and such tests won't be accepted in Nature, PRL, etc! You somehow cannot see the obvious contradictions and inconsistencies in your own argument based on what has transpired!

Zz.
 
  • #57
apeiron said:
So where does this leave rational concepts then? You know, the very stuff of logic, maths and metaphysics? If I suggest 1+1=2, do I have to now present the empirical evidence here?

I told him about vagueness - a well-established philosophical concept. I'm happy to refer anyone to a whole thread of resources on vagueness I have already compiled in this forum.

You can accuse the OP being hazy on both the theoretical concepts and the empirical observations (though I thought we could all pretty easily interpret his essential query). But a more sophisticated level of discussion (especially in a philosophy forum) must show its familiarity with both the physics and metaphysics involved. Yet your responses always sound like someone saying ooh yuck, personal tastes, when it comes to the conceptual aspects of a discussion.

and physical !
i posted it at the post #53

yoda jedi said:
...Thus, quantum mechanics involves a unique form of vagueness...

...The novel feature in the description of physical reality brought about with the advent of quantum mechanics is thus the fact that physical properties will not in general be either actual or absent but indefinite or indeterminate...

...as an element of empirical reality, an actual property has the capacity to act, to actualize an indicative measurement outcome if a measurement is performed. By contrast, when a property is absent it has no capacity to act. We propose the idea of an interpolation between the two extremes of full actuality and absence of a property...

...It is also appropriate to think of an indeterminate property as an element of unsharp reality...
 
Last edited:
  • #58
yoda jedi said:
and physical !
i posted it at the post #53

Yes, that Busch/Jaeger paper is an extremely valuable contribution here. Thanks yoda...
http://arxiv.org/PS_cache/arxiv/pdf/1005/1005.0604v2.pdf

Zeilinger's take on the metaphysics is also worth reading (as no one can complain about his empirical credentials :rolleyes:)...
http://www.quantum.at/fileadmin/zeilinger/philosoph.pdf

Anyway, from Busch/Jaeger is this elegant statement of the need for bold new metaphysics (and not to allow the "shut up and calculate" old guard shout us down)...

These quotations capture the tension between two opposing philosophical positions:
scientific realism versus instrumentalist empiricism. On the one hand, Einstein’s concern
was to uphold a world view based on what is commonly referred to as “local realism,”
in which probability plays a primarily epistemic role, whereas Heisenberg was prepared
to accept quantum indeterminacy and probability as primarily ontic, that is, as essential
features of the physical world. On the other hand, there is still a strong presence of the
view that Quantum Mechanics is nothing more than a formalism for the calculation of
measurement statistics.
Many physicists now adopt a pragmatic double approach: they practice a realist outlook
for the purposes of heuristic explorations of new models and the discussion of experiments, using intuitive pictures of individual (sub)atomic objects; but when challenged, they only admit to the minimal probabilistic or statistical interpretation of QuantumMechanics. This conflicted attitude has similarly been noted by D’Espagnat [4].
It seems to us that a more coherent and productive approachwould be to investigate systematically all possible variants of realist interpretations of Quantum Mechanics, including those in which probabilities are not essentially epistemic.

Zeilinger is not nearly so specific about the proper focus of this next step, but he endorses a holistic approach in general...

It is very highly likely that the new paradigm will contain holistic aspects. This follows in the most direct way from the fact, that in the Copenhagen interpretation it is impossible to dissect a quantum phenomenon into its parts. This may be expressed by saying that the preparation of a quantum system, its evolution and its observation, form one whole entity which, following both Bohr and Wheeler, we call the quantum phenomenon. Holistic aspects also follow from the fact that in a multi-particle-system it is not possible, not even for perfect correlations, to pre-assign properties to the individual members of the ensembles[35]. Such properties can only be assigned in the specific context of the whole experimental setup for all particles together. Then, in any case, they show up only in the correlations. This, I suggest, is another beautiful corroboration of Bohr's point of view[36].

In this statement further on in Busch/Jaeger, they get precisely to the heart of the problem as I have frequently outlined it...

In the case of quantum systems, properties can be considered objectively indefinite and sets of propositions regarding them complementary to specific other sets of propositions, so that it becomes impossible to jointly attribute them. Thus, quantum mechanics involves a unique form of vagueness distinct from those considered before.

What is crucial here is that complementarity (asymmetry, dichotomy) is part of the QM package. The logic involves both the initiating conditions, the indeterminate potential that is vague, and then also the decohering observation, the global set of constraints that crisply dichotomises this potential.

This is what is missing from most ontic vagueness proposals. People say well a vagueness is free do develop in any fashion really. But no. Only dichotomous outcomes are in fact possible. This was Anaximander's insight 2400 years ago. It has echoed down the years in the I Ching, Hegelian logic, etc. Yet people still seem to manage to overlook it.

There is just no accident that QM is based on orthogonal or complementary crisp observables. Systems logic says it could be no other way!

Here Busch/Jaeger state a consequence of this view. We can then go on to define vagueness (empirically, physically!) in complementary terms. It is a mixed state - a mixture of paired, dichotomous, outcomes.

It is also appropriate to think of an indeterminate property as an element of unsharp reality in the following sense. If a property P is indeterminate, then so is its complement P⊥ = I −P. Thus, both P and P⊥ have a nonzero degree of reality, they coexist, to a nonzero degree of actuality, in the given state. In this sense they are both simultaneously but “unsharply” defined. This description seems to be in agreement with Bohr’s account of the uncertainty relation: in a quantum state given by (say) a Gaussian wave function, the position and momentum of the quanton are, according to Bohr, both defined with a latitude. Bohr uses the phrase “unsharply defined individual” to characterize this situation.

Busch/Jaeger keep on hitting the mark. They correctly get the distinction between vagueness and fuzzy logic approaches...

It is important to note that the nature of the fuzziness of quantum effects differs fundamentally from that of fuzzy sets, however. In the latter case, the rule for the application of one of a set of alternative fuzzy sets is based on there being an underlying fine-grained level of actual reality.

So as I replied to the OP, between total realism and total unrealism, there is the intermediate ontic position which takes indeterminacy seriously.

And Busch and Jaeger is probably the best paper I've seen on this so far.
 
  • #59
ZapperZ said:
What you are suggesting is nowhere near such logic as 1+1=2. If it is, we won't have to perform experimental test of it and such tests won't be accepted in Nature, PRL, etc! You somehow cannot see the obvious contradictions and inconsistencies in your own argument based on what has transpired!

You seem the one struggling to follow the argument here. Models involve both theory and measurements. The two work in tandem and neither should be neglected.

You keep harping on about the need to be up to date with the empirical content. Which of course I agree with. But it was actually not particularly relevant in this thread as the essential QM issue has been clear from the beginning. It was that which I addressed, and which you have so far failed to address.

If you have some enlightening comments on the "third path" of quantum vagueness, especially in light ot the very fine Bausch/Jaeger paper (much better than other recent QM vagueness papers such as http://www.sorites.org/Issue_15/chibeni.htm), then let's hear them...
 
  • #60
apeiron said:
You seem the one struggling to follow the argument here. Models involve both theory and measurements. The two work in tandem and neither should be neglected.

What does that have anything to do with what you were proposing? A "theory" isn't a hand-waving argument. For theory and experiment to "work in tandem", a theory must produce quantitative predictions and the experiment must be able to measure such quantities! Are you telling me that what you told the OP falls under a category of a "theory"? Really?

You keep harping on about the need to be up to date with the empirical content. Which of course I agree with. But it was actually not particularly relevant in this thread as the essential QM issue has been clear from the beginning. It was that which I addressed, and which you have so far failed to address.

You offered a hand-waving argument with no empirical support. This is a fact that you haven't and can't dispute. That's the end of the story.

Zz.
 
  • #61
ZapperZ said:
You offered a hand-waving argument with no empirical support. This is a fact that you haven't and can't dispute. That's the end of the story.

All the evidence that QM is not-local and not-real is precisely my empirical support here. That is what is driving theorists like Busch and Jaeger.

So yes, as usual it is stunningly easy to dispute your version of events.
 
  • #62
apeiron said:
All the evidence that QM is not-local and not-real is precisely my empirical support here.

This looks like a very strong candidate for the next Nobel Prize in Physics? Reference please! :cry:
 
  • #63
DevilsAvocado said:
This looks like a very strong candidate for the next Nobel Prize in Physics? Reference please! :cry:

Oh please! I deliberately separated the two to make the usual point that not all the loopholes have been closed. If I wanted to say "local realism" had been proved wrong, that's what I would have said.

But if you are asking me what I believe, I do believe that both locality and realism are concepts that both need to be revised. Which is what a systems approach does.

The systems approach argues for top-down or contextual causality (which undercuts locality, or bottom-up, efficient cause as being all there is). And it also argues for vague initial conditions (which undercuts naive realism - local or global).

But if you really want a reference, I think this is a fair statement of the current state of play. If you are a fan of hidden variables and praying for a loophole, the tide has been going out on you for many years now...

The ultimate test of Bell’s theorem is still missing: a single experiment that closes all the loopholes at once. It is very unlikely that such an experiment will disagree with the prediction of quantum mechanics, since this would imply that nature makes use of both the detection loophole in the Innsbruck experiment and of the locality loophole in the NIST experiment. Nevertheless, nature could be vicious, and such an experiment is desirable if we are to finally close the book on local realism.
Two things are clear from these experiments. First, it is insufficient to give up completely the notion of locality. Second, one has to abandon at least the notion of naïve realism that particles have certain properties (in our case polarization) that are independent of any observation.

http://www.quantum.at/fileadmin/Presse/2008-07-01-MG-PW_A_Quantum__Renaissance.pdf
 
  • #64
apeiron said:
Oh please! I deliberately separated the two to make the usual point that not all the loopholes have been closed.

"Deliberately separated"... "loopholes"... I don’t understand anything... :bugeye:

Honestly, if you are referring to "empirical support" and "evidence", you should at least get the most basics facts correct. How could we else be helping OP getting it right??

Bell's theorem (aka Bell's inequality) is stating that:
No physical theory of Local Hidden Variables (LHV) can ever reproduce all of the predictions of QM.

All performed EPR-Bell test experiments performed so far verifies Bell's theorem, and another word for Local Hidden Variables is Local Realism, which by the scientific community is considered "dead" (naturally).

This does NOT mean that we now have evidence that QM is not-local and not-real. All we can say is that the predictions of QM and all experiments performed so far is telling us that the microscopic world must be non-local AND/OR non-real.

To me, this is a HUGE difference, since nothing is really settled yet. There are still three (3) options and the person(s) who can tell us which is correct will most probably get the Nobel Prize in Physics.

I’m not in any "camp", I’m just here to listen and learn. Furthermore I’m not a big fan of the "shut up and calculate" –model, neither can I see the use of building large "Philosophical Castles" on shaky grounds...

I must agree with ZapperZ that using logic as 1+1=2 is nothing but a catastrophe when discussing EPR-Bell and the real nature of the microscopic world.

Why!?

Because if we take the simplest version of Bell's inequality, by Nick Herbert:

N(+30°, -30°) ≤ N(+30°, 0°) + N(0°, -30°)

And reduce it, you will get:

1+1=2

This is the classical assumption we all think is "natural". But is this what QM predicts and experiments verify...??

Well, when we do the math and run the EPR-Bell test experiments, we will always find that:

1+1=3

!

...Get it...?
 
  • #66
apeiron said:
between total realism and total unrealism, there is the intermediate ontic position which takes indeterminacy seriously.

long time ago sirs...

Aristotle:

"about anything that exists just because of its existence and not because of any special qualities it has"...




and now again:(the same essence)

"Reality is the state of things as they actually exist"






Being Qua Being

there is no need of so "ENTANGLED" definitions...
 
Last edited:

Similar threads

  • Quantum Physics
Replies
12
Views
612
Replies
11
Views
1K
  • Quantum Physics
Replies
4
Views
1K
Replies
26
Views
2K
Replies
19
Views
884
Replies
44
Views
3K
  • Quantum Physics
2
Replies
36
Views
1K
Replies
8
Views
1K
  • Quantum Physics
Replies
24
Views
1K
Back
Top