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
Abstract
In this paper 4 new rules of mathematics will be applied to describe the movement status of such a particle like boson and fermion and derive Klein-Gordon Equation. In the first section, the 4 rules themselves are defined and explained. In the next section, the 4 rules are applied to Einstein’s special relativity by an example. In the next section, the 4 rules are used to define fermion’s wave function using the shortest path and deviation from them. Finally, using definition of Energy and momentum, Klein-Gordon Lagrangian which can be used to derive Klein-Gordon Equation is derived using above 4 rules.
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Shankar. Principles Of Quantum Mechanics Second Edition. New York: Springer Science+Business Media;1994. p260
Quantum Electrodynamics, Wikepedia[internet]. [place unknown: publisher unknown]; [updated July 2022; cited July 2022]. Available from: https://en.wikipedia.org/wiki/Quantum_electrodynamics
The Free Klein Gordon Field Theory[internet] [place unknown: publisher unknown]; [updated April 2018]. Available from:
https://www.pas.rochester.edu/assets/pdf/undergraduate/the_free_klein_gordon_field_theory.pdf
DOI: https://doi.org/10.23954/osj.v7i4.3217
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