On A New Formulation of Micro-phenomena: Basic Principles, Stationary Fields And Beyond

TL;DR

This paper introduces a new deterministic formulation of micro-phenomena based on principles of reality and causality, unifying information, matter, and energy, with applications to stationary states and conservative systems.

Contribution

It proposes a novel deterministic particle-field model that links energy, information, and causality, offering a new perspective on micro-phenomena beyond traditional quantum mechanics.

Findings

Field energy depends on physical conditions

Deterministic equations govern particle-field dynamics

Application to stationary states and nonlinear systems

Abstract

In a series of essays, beginning with this article, we are going to develop a new formulation of micro-phenomena based on the principles of reality and causality. The new theory provides with us a new depiction of micro-phenomena assuming an unified concept of information, matter and energy. So, we suppose that in a definite micro-physical context (including other interacting particles), each particle is enfolded by a probability field whose existence is contingent upon the existence of the particle, but it can locally affect the physical status of the particle in a context-dependent manner. The dynamics of the whole particle-field system obeys deterministic equations in a manner that when the particle is subjected to a conservative force, the field also experiences a conservative complex force which its form is determined by the dynamics of particle. So, the field is endowed with a given amount of energy, but its value is contingent upon the physical conditions the particle is subjected to. Based on the energy balance of the particle and its associated field, we argue why the field has a probabilistic objective nature. In such a way, the basic elements of this new formulation, its application for some stationary states and its nonlinear generalization for conservative systems are discussed here.