But if the model does stand up, what have I accomplished? There is presently no experimental way to distinguish between one or two axes of quantization. Including counterfactual coincidences can be rejected out of hand and quantum mechanics still viewed as complete. The mechanics of applying quantum will not change. Having the option to accept local reality might have a salving effect on those generations of physicists who have been brought up believing the Copenhagen Interpretation and Bell. One can sigh a sigh of relief that non-locality is history and Nature is both real and deterministic, at least for spin. That would make a lot of people happy.Read More
When there are nagging doubts about something in my work I worry about them until they make sense. Experience shows me that if I brush something aside, it comes back later to bite me. So I feel that those in the field of quantum information must have the same uneasiness about non-locality. and a stubborn, even defensive, acceptance of Bell’s theorem. So there must be a sense of paranoia about this inexplicable property. Local realists are a thorn, and I will only shut up if I am shown to be wrong, or some other viable local realistic explanation comes along.Read More
Nonetheless, the Moderators (of ArXiv) blacklisted me in 2009, denying me the exposure that others have, and for unknown reasons too. When I asked for the reasons, I get a note with no name, other than signed by “the Moderators” stating that in order to find out why they blacklisted me, I should submit the paper for publication.
By the way, most of the papers on the archives never get published.Read More
In this part after the seminar there is a question and answer period for the seminar: A local realistic reconciliation of the EPR paradox.Read More
In this part it is shown that the two dimensional spin model predicts the filter angles that give the maximum violation of the CHSH form of Bell’s Inequalities. It is also shown that the 2D spin is consistent with the non-commutative trigonometry by Karl Gustafson who found that a vector of length √2 is needed for the violation. This vector his has the same properties of the 2D structured spin presented here.Read More
In this part my two dimensional spin model in introduced. The model treats one of the many spins that makes up the statistical ensemble that is the quantum state. It is shown how averaging over all the Local Hidden Variables agrees completely with the correlation found in EPR experiments in a local and realistic way.Read More
Two aspects of quantum mechanics that are not understood are non-locality and the persistence of entanglement to space-like separations. In this part entanglement is explained and non-locality is shown to be a concept that no-one understands. Non-locality is called quantum weirdness.Read More