Two resonant quantum electrodynamics models of quantum measuring systems

TL;DR

This paper proposes two resonant quantum electrodynamics models for quantum measurement systems, one based on brain coherence mechanisms and the other on coherence domains with quantum memory, highlighting their similarities.

Contribution

It introduces two novel models of quantum measurement systems using resonant quantum electrodynamics, integrating recent coherence theories and quantum memory concepts.

Findings

Models are remarkably analogous

Incorporates recent coherence mechanisms

Suggests a new framework for quantum measurement

Abstract

A quantum measurement scheme is suggested in two resonant models of quantum electrodynamics. The first model is the brain, where, for the propagation of its action potentials, the free electron laser-like coherence mechanism recently investigated by the author is comprehensively applied. The second model is an assembly of Preparata et al.'s coherence domains, in which we incorporate the quantum field theory of memory advocated by Umezawa et al. These two models are remarkably analogous.