A Physical Origin for Quantum Entanglement and Probabilistic Behaviors

作     者：Kenneth H. Schatten Kenneth H. Schatten

作者机构：NASA/GSFC Greenbelt MD USA Now at Ai-Solutions Inc. Lanham MD USA 

出 版 物：《Journal of Modern Physics》 (现代物理（英文）)

年 卷 期：2021年第12卷第1期

页      面：50-58页

学科分类：07[理学] 070201[理学-理论物理] 0702[理学-物理学] 

主　　题：Quantum Mechanics Entanglement Probability Einstein Electron Origin Structure 

摘      要：Quantum Mechanics’ entanglement and probabilistic behaviors are viewed in the light of Quantum Field Theory’s (QFT’s) advances made during the last century. In particular, Bohm’s version (B-EPR) of the Einstein, Podolsky, Rosen (EPR) experiment is now viewed with the aid of QFT’s modern description of electrons. In QFT, free electrons possess a bare core surrounded by a “dressing. The dressing consists of one or more virtual particles/fields pulled from the vacuum during the bound electron’s parturition. In QFT, a bound electron’s freedom is aided by eliminating its energy losses from bremsstrahlung. The paper develops a “Shimony numerical model using QFT’s free electron structure with the aid of a “random vector paradigm (RVP). The RVP simply expresses QFT’s free electron as a bare core surrounded by an EM dressing. Using this RVP, we imbue newly freed electrons with a vector-like EM spin property of 1/2. From this, the Shimony Monte Carlo computer analysis provides a detailed comparison of the B-EPR experiment as described by Bell. The entanglement property can serve to provide a way to transport shared encoded information. Overall, the electron dressing can convey random elements that may provide QM with its entanglement and probabilistic behaviors.