Decrypting the Central Mystery of Quantum Mathematics:
Part 2. A Mountain of Empirical Data Supports TEW
The Theory of Elementary Waves (TEW) is based on three new Axioms that lead to a different understanding of quantum mathematics. There is a massive amount of research data that supports TEW. This article will take six well established experiments from mainstream scientific journals and re-interpret their axioms from a TEW point of view. Although it is usually asserted that QM explains all existing quantum experiments, that is only true if you can convince yourself that the quantum world is weird. If you adopt TEW axioms, suddenly the quantum world transforms itself into looking ordinary, like everyday Nature. If, for example, time only goes forwards, never backwards; if there is no such thing as a quantum eraser; if nothing is transmitted faster than the speed of light, then TEW axioms allow you to make sense of a quantum world which QM can only explain if you allow for weirdness throughout Nature. TEW consists of axioms that allow us to understand the quantum world in a way that makes sense from the viewpoint of our everyday experience.
 Marlan O. Scully and Kai Dru ̋hl. Quantum eraser: A proposed photon correlation experiment and ’delayed choice’ in quantum mechanics. Physical Review A, 25, 2208-2213 (April 1982).
 Helmut Kaiser, Russell Clothier, Samuel Werner, Helmut Rauch, and H. Wo ̋lwitsch. Coherence and spectral filtering in neutron interferometry. Physical Review A, 45, 31-42, 1992.
 W. A. Miller and J. A. Wheeler. Proceedings of the International Symposium on the Foundations of Quantum Mechanics, Tokyo, 1983, p. 38.
 James D. Cresser. Quantum Physics Notes, Department of Physics, Macquarie Uni- versity, “Chapter 6, Particle Spin and the Stern-Gerlach Experiment,” 54-69, (2009). http://physics.mq.edu.au/ jcresser/Phys301/Chapters/Chapter6.pdf (access date August 21, 2019). These note are not published except on-line.
 John A. Wheeler. In Problems in the Formulations of Physics, ed. G. T. di Francia, (North-Holland, Amsterdam, 1979), chapter 103, p.p 395-497.
 Vincent Jacques, E. Wu, F. Grosshans, François Treussart, P. Grangier, A. Aspect, and J.R. Roch. Experimental realization of Wheeler’s delayed-choice gedanken experiment, Science, 315, 966-968, 2007. DOI: 10.1126/sci- ence.1136303.
 Vincent Jacques, E. Wu, F. Grosshans, François Treussart, P. Grangier, A. Aspect, and J.R. Roch. Sup- porting online materials for Experimental realization of Wheeler’s delayed-choice gedanken experiment, http://www.sciencemag.org/cgi/content/full/315/5814/966/DC1, accessed September 17, 2011.
 Vincent Jacques, E. Wu, T. Toury, François Treussart, Alain Aspect, P. Grangier, and J. F. Roch. Single-photon wavefront-splitting Interference. European Physical Journal D, 35, 561-565 (2005). DOI: 10.1140/epjd/e2005- 00201-y
 Clinton J. Davisson and Lester Germer. Reflection of electrons by a crystal of nickel. Nature, 119, 558-560, 1927.
 Clinton J. Davisson. Are Electrons Waves? Franklin Institute Journal, 205, 597, 1928.
 Clinton J. Davisson. The diffraction of electrons by a crystal of nickel. Bell System Technical Journal, 7, 90-105, (January 1928).
 R. L. Pfleegor and Leonard Mandel. Interference of independent photon beams. Physical Review, 159, 1084-1088, 1967.
 R. L. Pfleegor and Leonard Mandel. Further experiments on interference of independent photon beams at low light levels. Journal of the Optical Society of America, 58, 946-950 (July 1968).
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