Microscopic theory of quantum physics
Dennis M. Heim
TL;DR
This paper introduces a microscopic framework where quantum phenomena emerge from classical particle interactions, deriving key quantum features and the Schrödinger equation from Newtonian dynamics.
Contribution
It presents a novel approach deriving quantum behavior and the Schrödinger equation from classical Newtonian mechanics.
Findings
Reproduces stationary states and quantized energy spectra
Explains interference fringes in double-slit experiment
Derives Schrödinger equation from classical principles
Abstract
I present a microscopic framework in which quantum phenomena emerge from particle-particle interactions governed by Newton's second law of motion. Within this approach, stationary states and quantized energy spectra arise naturally for the particle in a box. The same dynamics reproduces interference fringes in the double-slit experiment. Finally, I derive the Schr\"odinger equation from the underlying principles.
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Taxonomy
TopicsQuantum Mechanics and Applications · Quantum and Classical Electrodynamics · Quantum Electrodynamics and Casimir Effect