Is there any interpretation covering this?

In summary, the Transactional Interpretation reasons along these lines. It posits that not only does the past influence the future, but also the converse - that the future can influence the past. This is achieved through the concept of waves of probability propagating both from the future into the past and from the past into the future. This allows for the possibility of interference and resonance between the two, essentially influencing each other. While this theory has been met with some criticism, it is seen as one of the best approximations for explaining this phenomenon. However, one of the main criticisms is that it fails to provide a sufficient causal structure to uniquely determine the behavior of quantum systems. This is attributed to a lack of causal symmetry in the theory, rather than
  • #1
entropy1
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I was wondering if it is possible that not only the past influences (or causes) the future, but also the converse, that the future influences the past. I imagine waves of probability propagating from the future into the past as well as from the past into the future, thereby influencing each other, for example interfering of even resonating with each other. Is there any interpretation (more or less) covering this?

Thanks!
 
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  • #2
The Transactional Interpretation reasons along these lines. This Wikipedia link should get you started.
 
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  • #3
phyzguy said:
The Transactional Interpretation reasons along these lines. This Wikipedia link should get you started.
Thank you! I've bumped into it before, but it apparently somehow escaped my attention. Probably because I was working on my own view and basic QM knowledge first. The transactional interpretation seems to be just what I was searching for! Thanks! :smile:
 
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  • #5
Hmmm, I'm not sure the transactional interpretation is exactly what I mean. But I guess it's the best approximation of what I mean. :biggrin: Anyway, what do I know? :-p

Sorry for the little joke. :nb):biggrin:
 
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  • #6
BTW, Relational Blockworld considers itself to be acausal or bicausal with respect to time.
 
  • #7
DrChinese said:
BTW, Relational Blockworld considers itself to be acausal or bicausal with respect to time.
That's interesting! But isn't blockworld a kind of superdeterministic model?
 
  • #8
entropy1 said:
That's interesting! But isn't blockworld a kind of superdeterministic model?

Nope. There is nothing "determining" the actual outcome.
 
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  • #9
Is there any (free/public domain) publication or book I can best buy explaining TI with math, but not too complicated math?
 
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  • #11
Some useful links on retrocausal explanations of quantum entanglement and beyond
http://prce.hu/centre_for_time/jtf/retro.html
(13) Quantum Retrocausation III. Organizer: Daniel P. Sheehan (Department of Physics and Biophysics, University of San Diego, San Diego, California; dsheehan@sandiego.edu).
Two day program, scheduled for Wednesday and Thursday, 15 and 16 June.

Causation – the principle that earlier events affect later ones, but not vice versa – undergirds our experience of reality and physical law. Although it predicated on the forward unidirectionality of time, in fact, most physical laws are time symmetric; thus, they formally and equally admit both time-forward and time-reverse solutions. Time-reverse solutions suggest that, in principle, the future might influence the past, i.e., reverse (or retro-) causation. Why time-forward solutions are preferentially observed remains an unresolved problem. In-with journal citations increasing exponentially in recent years.

Evidence for reverse causation is currently relatively scarce and controversial. While laboratory results are intriguing, theoretical models have lagged, not yet making solid connections with mainstream physics. Furthermore, many of the most basic physical issues – e.g., the role of the second law of thermodynamics in disallowing retrocausation, and whether retrocausation is best explained by energy transfers or simply by correlations without information exchange – remain open questions.

This symposium will explore recent experiments, theory, and philosophical issues concerning retrocausation. It is hoped the meeting will foster better theoretical models by which laboratory results can be understood, and stimulate new experiments and collaborations by which the underlying physics may be more clearly exposed.

References:

  • Frontiers of Time: Retrocausation – Experiment and Theory, D.P. Sheehan, Editor, AIP Conference Series, Volume 863, (AIP Press, Melville, NY, 2006).
  • Quantum Retrocausation: Theory and Experiment, D.P. Sheehan, Editor, AIP Conference Volume 1408 (American Institute of Physics, Melville, NY, 2011).
http://associations.sou.edu/aaaspd/2016SANDIEGO/2016SympAbstracts/13.pdf
 
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  • #12
John Highcastle said:
Some useful links on retrocausal explanations of quantum entanglement and beyond
http://prce.hu/centre_for_time/jtf/retro.html
(13) Quantum Retrocausation III. Organizer: Daniel P. Sheehan (Department of Physics and Biophysics, University of San Diego, San Diego, California; dsheehan@sandiego.edu).
Two day program, scheduled for Wednesday and Thursday, 15 and 16 June.

Causation – the principle that earlier events affect later ones, but not vice versa – undergirds our experience of reality and physical law. Although it predicated on the forward unidirectionality of time, in fact, most physical laws are time symmetric; thus, they formally and equally admit both time-forward and time-reverse solutions. Time-reverse solutions suggest that, in principle, the future might influence the past, i.e., reverse (or retro-) causation. Why time-forward solutions are preferentially observed remains an unresolved problem. In-with journal citations increasing exponentially in recent years.

Evidence for reverse causation is currently relatively scarce and controversial. While laboratory results are intriguing, theoretical models have lagged, not yet making solid connections with mainstream physics. Furthermore, many of the most basic physical issues – e.g., the role of the second law of thermodynamics in disallowing retrocausation, and whether retrocausation is best explained by energy transfers or simply by correlations without information exchange – remain open questions.

This symposium will explore recent experiments, theory, and philosophical issues concerning retrocausation. It is hoped the meeting will foster better theoretical models by which laboratory results can be understood, and stimulate new experiments and collaborations by which the underlying physics may be more clearly exposed.

References:

  • Frontiers of Time: Retrocausation – Experiment and Theory, D.P. Sheehan, Editor, AIP Conference Series, Volume 863, (AIP Press, Melville, NY, 2006).
  • Quantum Retrocausation: Theory and Experiment, D.P. Sheehan, Editor, AIP Conference Volume 1408 (American Institute of Physics, Melville, NY, 2011).
http://associations.sou.edu/aaaspd/2016SANDIEGO/2016SympAbstracts/13.pdf

John,

Thanks for this, that is quite a group of people presenting.
 
  • #14
DrChinese said:
John,

Thanks for this, that is quite a group of people presenting.

Causal Symmetry and the Transactional Interpretation

Peter W. Evans 14 April, 2012

Abstract

Cramer’s (1986) transactional interpretation of quantum mechanics posits retro- causal influences in quantum processes in an attempt to alleviate some of the inter- pretational difficulties of the Copenhagen interpretation. In response to Cramer’s theory, Maudlin (2002) has levelled a significant objection against any retrocausal model of quantum mechanics. I present here an examination of the transactional interpretation of quantum mechanics and an analysis of Maudlin’s critique. I claim that, although Maudlin correctly isolates the weaknesses of Cramer’s theory, his justification for this weakness is off the mark. The cardinal vice of the transac- tional interpretation is its failure to provide a sufficient causal structure to constrain uniquely the behaviour of quantum systems and I contend that this is due to a lack of causal symmetry in the theory. In contrast, Maudlin attributes this shortcomng to retrocausality itself and emphasises an apparently fundamental incongruence between retrocausality and his own metaphysical picture of reality. I conclude by arguing that the problematic aspect of this incongruence is Maudlin’s assumptions about what is appropriate for such a metaphysical picture.

Key words: quantum mechanics, transactional interpretation, retrocausality

http://arxiv.org/pdf/1011.2287v2.pdf
 
  • #15
You can check out my website for resources on TiQM: https://transactionalinterpretation.org
However I should also point out that one has to be careful about what they mean by 'retrocausation'.
In my version of TI there is a kind of retrocausal influence that is part of the process of emergence of spacetime events.
However in a block world there isn't really room for any dynamical sort of causation--in that sense it can be viewed as 'superdeterministic'
just in the sense that all events exist already, and therefore are not being brought about (i.e. caused) by an influence within spacetime itself.
 
  • #16
rkastner said:
You can check out my website for resources on TiQM: https://transactionalinterpretation.org
However I should also point out that one has to be careful about what they mean by 'retrocausation'.
In my version of TI there is a kind of retrocausal influence that is part of the process of emergence of spacetime events.
However in a block world there isn't really room for any dynamical sort of causation--in that sense it can be viewed as 'superdeterministic'
just in the sense that all events exist already, and therefore are not being brought about (i.e. caused) by an influence within spacetime itself.
If we introduce MWI in this picture, one could escape superdeterminism, right?
 
  • #17
Professor Kastner's remark on retrocausality and lack of dynamics in the block universe is not accepted by other physicists like Richard Feynman, Yakir Aharonov, Lev Vaidman, Rod Sutherland, Huw Price, Ken Wharton and many others.
 
  • #18
To Dr. Highcastle: Richard Feynman is regrettably dead, so he has not taken any position on my statement. As for the others, perhaps they don't like it, since it apparently undermines their interpretation, but they haven't refuted it. So the point stands. I gave a talk on this at the recent AAAS conference on retrocausation in San Diego (see attached), and there was no refutation provided at that time, just some unhappiness. I do recall one questioner trying to argue that dynamical things are going on in a static spacetime, but clearly this is self-contradictory. Lack of acceptance of an argument or proposal does not equal refutation of the argument or proposal. Ernst Mach did not accept Boltzmann's atomic hypothesis either, but it turned out to be correct. Best wishes, RK
 

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  • #20
entropy1 said:
If we introduce MWI in this picture, one could escape superdeterminism, right?
rkastner said:
To Dr. Highcastle: Richard Feynman is regrettably dead, so he has not taken any position on my statement. As for the others, perhaps they don't like it, since it apparently undermines their interpretation, but they haven't refuted it. So the point stands. I gave a talk on this at the recent AAAS conference on retrocausation in San Diego (see attached), and there was no refutation provided at that time, just some unhappiness. I do recall one questioner trying to argue that dynamical things are going on in a static spacetime, but clearly this is self-contradictory. Lack of acceptance of an argument or proposal does not equal refutation of the argument or proposal. Ernst Mach did not accept Boltzmann's atomic hypothesis either, but it turned out to be correct. Best wishes, RK
Dear Professor Kastner
I was referring to Feynman's classic papers on QED where he calls the block universe th "bird's eye view" if I recall correctly?
Ken Wharton says you are using Humean causality when it is interventionist causality that allows dynamics in the block world which is part of Einstein's relativity.
 
  • #21
You misunderstand my point then. As I noted in the attached paper, there could be a block world, but if so, there is no dynamical retrocausation involved. (In any case, you can't say Feynman disagrees with me if he's never heard my arguments or proposals.)
I am not alone on this; the Relational Block World authors (Mark Stuckey, Michael Silberstein, and their collaborators) agree that the block world is acausal and adynamical.
I offer a different interpretation in which one does not need to take an 'observer' as primitively 'moving through' the block world. However I don't rule out a block world; I'm simply pointing out that it is inconsistent to claim there is any dynamical causation in a block world.
Ken Wharton is not engaging with my argument. We went through this at the AAAS conference and I showed that there is no dynamics when one tries to apply "interventionist causality" -- so that does not solve this issue. I address this in the above attached paper as well. There can be no real 'causal interventionism' in a block world. This is trying to have it both ways. Agents and their actions are part of the block world, so there is no authentic "intervention." See the previously attached paper for detailed arguments.
 
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  • #22
I do not agree. Dynamics is the 3D view of the observer's experiences. The 4D view is timeless.
 
  • #23
John Highcastle said:
I do not agree. Dynamics is the 3D view of the observer's experiences. The 4D view is timeless.
That would be a fine interpretation except that the researchers I'm discussing are invoking retrocausation within spacetime as a putative explanation for occurrence of other events in spacetime. This can't be just the perspectival dynamics of an observer moving through spacetime. Have you read my attached paper? I think that will clarify the issues in play here. Without benefit of that background I don't think we'll accomplish much going back and forth in messages on this board. Best wishes, RK
 
  • #24
Regarding the Transactional Interpretation, for those who are interested I just posted an overview and discussion of 'where we are now' with TI here: http://arxiv.org/abs/1608.00660
 
  • #25
  • #26
For what it's worth, I agree with Ruta that the block world is adynamical. I do not think that physically meaningful 'retrocausation' can really take place in a block world, and that claims that it does are ontologically inconsistent. For more on that, see my talk at the recent AAAS workshop on this topic, http://arxiv.org/abs/1607.04196
 
  • #27
FYI, my recent paper with John Cramer (founder of TI) explains how the Born Rule emerges naturally from radiative processes when both emission and absorption are taken into account. It has just been accepted in IJQF. Final preprint version here: https://arxiv.org/abs/1711.04501 (The paper also shows how absorption is quantitatively well-defined in the relativistic version of TI.)
 

1. What is an interpretation?

An interpretation is a way of understanding or explaining something, often using a specific perspective or framework.

2. How do interpretations differ from facts?

Interpretations are subjective and can vary depending on the individual or context, while facts are objective and can be proven or verified.

3. Is there a single interpretation that covers everything?

No, there is no one interpretation that can cover everything. Different perspectives and approaches can lead to different interpretations of the same thing.

4. Can interpretations change over time?

Yes, interpretations can change as new information and evidence is discovered or as societal attitudes and beliefs shift.

5. How do scientists approach interpretations in their research?

Scientists use the scientific method to develop and test interpretations, ensuring that they are based on evidence and can be replicated by others. They also consider alternative interpretations and strive for objectivity in their interpretations.

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