February 7, 2013

Seminar: A local realistic reconciliation of the EPR paradox–Part 7 Video

In this part after the seminar there is a question and answer period for the seminar: A local realistic reconciliation of the EPR paradox.
February 6, 2013

Seminar: A local realistic reconciliation of the EPR paradox–Part 6 Video

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.
February 5, 2013

Seminar: A local realistic reconciliation of the EPR paradox–Part 5 Video

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.
February 4, 2013

Seminar: A local realistic reconciliation of the EPR paradox–Part 4 Video

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.
February 1, 2013

Seminar: A local realistic reconciliation of the EPR paradox–Part 3 Video

In this part of the seminar it is pointed out that quantum mechanics is a theory of measurement of the microscopic. This means that a probe of some sort must be used to "see" spin. However it is pointed out that states exist in the completely isotropic environment in the absence of a probe.
January 31, 2013

Seminar: A local realistic reconciliation of the EPR paradox–Part 2 Video

The longest standing unsolved problem in quantum mechanics is the EPR paradox. Its history is traced from the 1927 Solvay Conference to the present time. Today non-locality is firmly entrenched in physics and in spite of various experiments on teleportation, quantum cryptography and quantum computing, no one understands now entanglement persists to space like separation.
January 28, 2013

Seminar: A local realistic reconciliation of the EPR paradox–Part 1 Video

Local realism is heresy
January 4, 2013

A Local Realistic Reconciliation of the EPR Paradox

Since there is no experimental way to confirm that two axes exist, rather than one, the choice between local realism and non-local indeterminism is subjective. Since non-locality is the basis of “quantum weirdness”, Occam’s razor takes the side of locality.
January 3, 2013

CHSH: there lies a vector of length √2

....rather than showing the consistency of the 2D spin with the CHSH equation, we show the CHSH equation predicts the hidden spin. That is starting with the CHSH form of Bell’s Inequalities, a vector of length √2 is found that maximizes the CHSH equation: the 2D spin is hidden inside the CHSH equation.
November 8, 2012

When quantum mechanics fails in EPR experiments

Intuition tells us that if we improve detection efficiency and build better experiments the number of detected events will increase until, at 100% efficiency, Fair Sampling would be verified because all events would be recorded. This fails, however, to take into account the Heisenberg Uncertainty Principle. Fair Sampling is always valid for classical events but not always valid for quantum events.
July 2, 2011

Quantum Crackpot RANDI Challenge Taken: Part 2

An unfiltered particle is called “Pristine” as defined in the website called Bell’s theorem refuted. The values of the LHV of a pristine particle are unknown. A pristine EPR pair is one before filtering. ....I will present a model that shows a disentangled product state not only gives the quantum result, but predicts something new.
June 29, 2011

Quantum Crackpot Randi Challenge Taken: Part 1

In answering the Crackpot Randi Challenge, I following Crackpot rules to obtain results which agree with the experimental data of Gregor Weihs and Alain Aspect, without entanglement.

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