Revisiting Quantum Phenomena through Scalar Geometry: A Pedagogical Derivation of the Aharonov-Bohm Effect, Fine Structure, and Finite Self-Energy (Part V)

Key Points

• The aim is to demonstrate the pedagogical use of a higher-derivative scalar framework in quantum phenomena derivation.
• Utilized the Higher-Derivative Lee-Wick scalar framework established in previous parts.
• Derived the Aharonov-Bohm effect and the fine structure from the internal geometry.
• Investigated the regularization of the Coulomb potential for finite self-energy without traditional renormalization.
• Conducted a comparative analysis of geometric perspectives on quantum concepts.
• Successfully derived the Aharonov-Bohm effect and fine structure using scalar geometry.
• Achieved a regularization of the Coulomb potential, leading to finite self-energy.
• Simplified understanding of complex concepts like spin, force, and divergences through this framework.