Abstract

 
 
 The fact that loophole-free Bell test experiments have proved Einstein’s local realism wrong, does not prove that the quantum mechanical (QM) model is correct, because the Theory of Elementary Waves (TEW) Axioms can also explain the Bell test experiments. Bi-Rays are a pair of coaxial elementary rays traveling at the speed of light in countervailing directions. In a Bell test experiment a Bi-Ray stretches from Alice’s equipment, through the fiberoptic cable, across the 2-photon source, through more fiberoptic cable, to Bob’s equipment. A pair of entangled photons is born into that Bi-Ray. Each photon follows the same Bi-Ray in opposite directions. This model produces the same Bell test results found by QM. According to QM this would be classified as a “non-local” model, so it is no surprise that it can explain the Bell test results. But it is a different model than QM. TEW supports a more realistic view of Nature, based on better Axioms. Although QM can explain quantum experiments, it requires that you believe the quantum world is weird. TEW Axioms explain the quantum world in a way that is more intuitively similar to the world of everyday experience.
 
 
Highlights
This is the third in a series of four articles focused on decrypting the central mystery of quantum mathematics.[1-4]
Theory of Elementary Waves (TEW) Axioms can explain the results of the Bell test experiments, and can explain how quantum information systems work, yet TEW is different than quantum mechanical (QM).[5-22]
As we showed in the first article, the Axioms of QM, which led to Schrodinger’s cat, can be replaced by Axioms of TEW that lead to a more satisfying picture of the quantum world
Summary
This is the third in a series of four articles focused on decrypting the central mystery of quantum mathematics.[1-4]. This article will show that this approach can explain the Bell test experiments, and sheds new light on quantum information systems. TEW Axioms can explain the results of the Bell test experiments, and can explain how quantum information systems work, yet TEW is different than QM.[5-22]. Many people are uncomfortable with the QM picture of Nature (witness Schrodinger’s cat) It doesn’t square with our common sense. As we showed in the first article, the Axioms of QM, which led to Schrodinger’s cat, can be replaced by Axioms of TEW that lead to a more satisfying picture of the quantum world. We showed that the Axioms of TEW provide a solid platform for quantum math, and for understanding six published experiments. To explain the Bell test experiments and quantum computers we need to introduce an advanced version of TEW, based on Bi-Rays
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