A mesoscopic model for the collective dynamics of water coherence domains

TL;DR

This paper presents a mesoscopic deterministic model for water coherence domains, capturing collective dynamics and synchronization phenomena, with implications for understanding the emergence of life.

Contribution

It introduces a novel mesoscopic model that extends previous work to better describe water coherence domains and their role in biological processes.

Findings

Qualitatively reproduces experimental features of water coherence domains

Supports an evolutionary theory based on layered synchronization

Discusses relevance to the emergence of life

Abstract

This work deals with a mesoscopic and deterministic theory for the collective dynamics of Water Coherence Domains, and it represents a continuation of a previous work published in Plos ONE https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0188753 This approach qualitatively reproduces some features of the experimental phenomenology, and it could sustain an evolutionary theory based on layered synchronization processes. Its relevance for the description of the processes behind the emergence of life is discussed.