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Posted by on May 14, 2013 in A Local Realistic Reconciliation of the EPR paradox | 0 comments

A Local Realistic Reconciliation of the EPR Paradox – Some consequences

1. The following is a research lecture given on January 22nd, 2013 at McGill Chemistry: Part 1: Introduction and the Statistical Ensemble Interpretation of quantum mechanics Part 2: The EPR paradox and problems with quantum mechanics Part 3: Measurement and EPR experiments Part 4: Entanglement and Non-locality Part 5: The Two Dimensional spin model Part 6: Corroboration and summary Part 7: Questions 2. Some discussions of the spin model: A Local Realistic Reconciliation of the EPR Paradox CHSH: there lies a vector of length √2  Consistency of Bell’s (CHSH) Inequalities and two dimensional spin The invisible side of quantum spin When quantum mechanics fails in EPR experiments Spin and Quantum Computers Quantum Coherence – now Nature hides stuff from us 3. Further discussion and relationship to Joy Christian’s Clifford Algebra approach: The Bloch Sphere and Spin in Quantum Mechanics Disproof of Bell’s Theorem   The Sub-quantum spin  Two Dimensional spin model: Great simulation of the Stern-Gerlach experiment at http://phet.colorado.edu/en/simulation/stern-gerlach Contrast quantum ensemble (the statistical quantum state) with single particle of...

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Posted by on Dec 29, 2012 in Quantum Mechanics Research | 0 comments

Consistency of Bell’s (CHSH) Inequalities and two dimensional spin

I have been saying in my blogs that if spin has two axes of quantization, then all the quantum weirdness dissolves and the EPR paradox is reconciled. This is not some new change or addition to quantum mechanics, and there is nothing classical about it. The only deviation from the usual application of quantum mechanics is that a single spin is isolated and there is no measuring probe. That is, space is isotropic. So the only conceptual change I am making is the following:

Quantum mechanics is a theory of measurement, but not of Nature, and can be extended to states that exist beyond our ability to measure.

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