The GMc-interpretation of Quantum Mechanics

TL;DR

The GMc-interpretation offers a classical-physics-compatible framework for quantum mechanics, explaining phenomena and paradoxes without wave-particle duality, and addressing measurement and interaction-free measurement issues.

Contribution

It introduces a new interpretation of quantum mechanics that aligns with classical physics and resolves key paradoxes and conceptual problems.

Findings

Explains measurement problem and interaction-free measurements

Addresses concepts of complementarity, uncertainty, decoherence, locality, and realism

Provides a framework where all probabilities are known beforehand

Abstract

The GMc-interpretation (Gravitation-Motion of mass-light with maximal speed c) is a consistent approach to quantum mechanics very closely related to classical physics. Several postulates are formulated that are satisfied in classical physics, general relativity theory, quantum theory and thermodynamics. In this interpretation, particles are always particles, never waves, and many paradoxes can be easily understood or avoided. In particular, the postulates allow to explain the measurement problem and the concept of interaction-free measurements; the latter allows to find objects without ``touching'' them, and sometimes the phrase ``seeing in the dark'' is used. Additionally, the concepts of complementarity, uncertainty, decoherence, locality and realism are investigated. One key property of this interpretation is that all observed probabilities and interference patterns are known before a particle is in the experiment. Ontological questions are discussed.