- #211
DrChinese
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Maaneli said:The conclusion with respect to standard QM is that standard QM (SQM) cannot be embedded within a locally causal theory of hidden variables, because SQM predicts nonlocal correlations between measurement outcomes at spacelike separated detectors. SQM is a causal theory because the time-evolution of the SQM wavefunction is fixed by only an initial condition, and not, for example, by "two-time" boundary conditions. So one can deduce that SQM is incompatible with local causality because SQM is a nonlocal causal theory.
What could it mean to say that there is no "cause"? One (admittedly vague) possibility might be if the wavefunction was defined in terms of Block Time (where there is no objective distinction between past, present, and future instants of time). Then there would be no objective direction of causation, because the wavefunction would be defined throughout an eternal 4-D Block Universe.
Re my drift, essentially yes. The fact that standard QM is a nonlocal causal theory, naturally suggests (just as a logical possibility) that it might be possible to embed it into a nonlocal causal theory of hidden variables. And the deBB theory just happens to be an example of such a logically possible theory (though it is by no means uniquely implied by Bell's theorem).
Very well said! As you are meaning these terms, I agree with everything you are saying. I think it is interesting that nonlocal can properly be used in several contexts here.