Quantum Entanglement and Decoherence: Beyond Particle Models. A Farewell to Quantum Mechanics's Weirdness

TL;DR

This paper proposes a new framework for understanding quantum phenomena by replacing standard representations with elementary material constituents, aiming to eliminate quantum 'weirdness' and classical language dependence.

Contribution

It introduces a novel approach that shifts focus from traditional quantum state representations to elementary material constituents, challenging conventional interpretations.

Findings

Quantum weirdness diminishes under the new framework

Standard quantum representations are replaced by material-based states

Classical language dependence is reduced in describing quantum phenomena

Abstract

Combining abstract to laboratory projected quantum states a general analysis of headline quantum phenomena is presented. Standard representation mode is replaced; instead quantum states sustained by elementary material constituents occupy its place. Renouncing to assign leading roles to language originated in classical physics when describing genuine quantum processes, together with sustainment concept most, if not all weirdness associated to Quantum Mechanics vanishes.