3

I have a strong intuitive feeling, based for example on the Bothe-Geiger experiment, that quantum mechanics is nonlocal. But intelligent people who have thought about these things make claims such as that quantum mechanics is nonlocal in the Copenhagen interpretation, but local in the many-worlds interpretation. It seems clear to me that some theories (Newtonian gravity) are definitely nonlocal, and others are definitely local (classical special relativity).

Here are some of the terms used to talk about the EPR paradox:

  • locality
  • realism
  • counter-factual definiteness

Do some or all of these have definite true/false values for quantum mechanics? For certain interpretations of quantum mechanics? For hidden-variable theories? Do certain boolean combinations of these terms have definite truth values, even if the terms themselves do not?

My current feeling is that these are all fundamentally incoherent notions, and that we should understand them as nothing more than vague philosophical motivations that would lead us to construct actual theories such as hidden variable theories, or to construct tests such as the Bell inequalities. Is my opinion sloppy and overly broad?

related: What combinations of realism, non-locality, and contextuality are ruled out in quantum theory?

1 Answers1

1

Starting at your end: Yes, of course we are free to choose whatever notions we like to construct a theory, and then to test its predictions with experiments and iterate the process.

Locality in the sense of Einstein's special relativity is a well tested concept. There can be no instantaneous information transfer between space separated events as happens in Newton's gravity, which led to the latter being supplanted by GR.

The standard utilitarian formalism of QM, and more explicitly QFT, is manifestly local. There are no non-local interactions. What we do observe are non-local correlations, which tend to be stronger than non-local correlations in classical physics. This has been demonstrated several times by various loop-hole free tests of Bell's inequalities.

I interpret "realism" as he same as "counter-factual definiteness" in the sense that objects have pre-existing values even before we make measurements to determine those values. The standard formalism of QM/QFT does not refer to such concepts and attempts to include such possibilities within QM leads to contradictions.

The conclusion of Bell type experiments is that theories with "local realism" do not agree with experimental results, while QM predictions agree perfectly with those experiments. So if you keep locality, then you have to give up realism, and QM is the best theory in this category so far.

But if you insist on keeping realism then you are forced to adopt non-locality. Here the debroglie-Bohm theory, which is just a re-writing of standard QM, is a concrete possibility. However such a formulation is currently known only at the non-relativistic level.

rparwani
  • 914
  • "However it works only at the non-relativistic level." Can people please stop claiming that without being informed about the actual status of research? (e.g. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3896068/) – Luke Apr 26 '18 at 13:00
  • 1
    @Luke Thanks for pointing out that one recent research paper. I have not read it but only browsed through the abstract and conclusion just now. The initial impression I get is that the authors themselves are very tentative in their language and hesitant about their conclusions (as is reflected even in their title). Yes research is good, but I think until it is demonstrated explicitly to the satisfaction of the majority, it will still be considered unproven. – rparwani Apr 26 '18 at 13:19
  • Yes, sure. That is, so to say, the important difference between the formulations "It only works at the non-relativistic level" and "There is no relativistic formulation yet." – Luke Apr 27 '18 at 12:31
  • @Luke Noted. Edited. – rparwani Apr 27 '18 at 13:20
  • This answer reads like a general outline of the ideas and definitions. That isn't what the question asks for. –  Apr 27 '18 at 16:39
  • @BenCrowell I counted 5 question marks in your "question". So you have several questions. I attempted to answer most of them concisely. Definitions are important so that we are on the same page. I did not outline any "ideas", but rather summarised the majority accepted wisdom based on experimental facts. If you would like longer answers I suggest you itemise your questions, and make them more precise (or ask them in separate posts). You might also want to take a look at some external references I cited in a related question here: https://physics.stackexchange.com/q/397460 – rparwani Apr 28 '18 at 02:02