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YinYang Bipolar Quantum Geometry and Bipolar Quantum Superposition Part I—A Background Independent Geometrical and Logical Exposition of Dirac 3-Polarizer Experiment
Fractal Geometry and Nonlinear Analysis in Medicine and Biology
  • Wen-Ran Zhang, Georgia Southern University
  • Francesco Marchetti, High School G. Torelli
Document Type
Article
Publication Date
8-28-2015
DOI
10.15761/FGNAMB.1000112
Disciplines
Abstract

Bipolar quantum agent (BQA), bipolar quantum geometry (BQG) and bipolar dynamic logic (BDL) are introduced based on bipolar complementarity – a logical extension to Niels Bohr’s particle-wave YinYang duality principle. Complete geometrical background independence is proposed and BQG is proven completely background independent which leads to the notion of bipolar quantum superposition – an equilibrium-based logical approach to superposition. It is shown that the logical linearity of BDL can be unified with the physical nonlinearity of bipolar dynamic equilibrium. It is proven that a single polarized photon as a BQA can be logically channeled through the three polarizers in Dirac’s experiment with BDL regardless of quantum uncertainty. It is illustrated that BQG, BDL and bipolar probability adds analytical power to quantum mechanics. It is concluded that bipolar quantum superposition demystifies Schrödinger’s cat paradox from a weird quantum phenomenon to a logically comprehendible YinYang bipolar dynamic equilibrium interpretation of quantum superposition and leads to an analytical paradigm of quantum mechanics and quantum biology as presented in Part II of this work.

Comments

Article obtained from Fractal Geometry and Nonlinear Analysis in Medicine and Biology. https://doi.org/10.15761/FGNAMB.1000112

Citation Information
Wen-Ran Zhang and Francesco Marchetti. "YinYang Bipolar Quantum Geometry and Bipolar Quantum Superposition Part I—A Background Independent Geometrical and Logical Exposition of Dirac 3-Polarizer Experiment" Fractal Geometry and Nonlinear Analysis in Medicine and Biology Vol. 1 Iss. 2 (2015) p. 61 - 68
Available at: http://works.bepress.com/wen-ran_zhang/45/