TITLE:
Collapse of Bell’s Theorem
AUTHORS:
Guangye Chen
KEYWORDS:
Bell’s Theorem, Bell’s Inequalities, Local Realism, EPRB Experiment
JOURNAL NAME:
Journal of Modern Physics,
Vol.10 No.10,
August
28,
2019
ABSTRACT: Bell’s theorem founded on Bell’s inequalities asserts that no local realistic theories can reproduce all quantum mechanical predictions for spin correlation of particle pairs. It is pointed out that the assumption of setting-independent probability makes Bell’s inequalities not impose constraint on all local realistic models and thus constitutes a theoretical loophole of Bell’s theorem. A counterexample is presented by showing that a local realistic model with appropriate probability density reproduces all quantum mechanical predictions. It becomes clear that experiments violate Bell’s inequalities because the real correlation functions are not constrained by these inequalities. It is also exposed that, rigorous logical reasoning of counter factual deduction does not permit to exclude any premises of Bell’s inequalities by a certain amount of experimental violations of these inequalities.