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RESEARCH ARTICLE
The New Interpretation of Quantum Mechanical Probability and Renormalization Using 4 Mathematical Laws and 5 Physical Laws
Hyun Rhee
SJHT, South Korea
Corresponding Author: Hyun Rhee. SJHT, South Korea. E-mail: [email protected]
Received: April 17, 2023 Published: April 27, 2023
Citation: Rhee H. The New Interpretation of Quantum Mechanical Probability and Renormalization Using 4 Mathematical Laws and 5 Physical Laws. Int J Complement Intern Med. 2023;4(1):156–166. DOI: 10. 58349/IJCIM. 1. 4. 2023. 00124
Copyright: ©2023 Hyun. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and build upon your work non-commercially.
Abstract
This article provides new ways to analyze atomic world using Einstein’s Relativity’s shortest path theory. It defines wave function and the complex number function values with deviation from the shortest path defined in General Relativity. Especially it assigns pure imaginary part to the deviation. Then it defines the new concept so called weighted path by applying 4 mathematical laws and derives probability density of wave function by weighted path concept. Then it introduces 5 physical laws and by applying this new concept of these laws and new wave function concept, it explains in the new way why probability phenomenon occurs, and renormalization concept.
Keywords: physically continuous, The 4 Mathematical Laws, laws of existence, 5 physical laws, microscopic, macroscopic, Hamiltonian Picture, Lagrnagian Picture, Status Functional
References
1. Rhee HS. Description of Physical Status and Definition of Wave Function and Derivation of Klein-Gordon Lagrangian Using New Mathematical 4 Rules and Deviation from the Shortest Path of Fermion. Open Science Journal. 2022;7(4).
2. Hamiltonian (quantum mechanics)
3. Quantum field theory
4. Quantum electrodynamics
5. Propagator