The Essence of Magnetic Matter: d-v Critical Allocation and the Macroscopic Manifestation of x — A New Theory of Magnetism Based on Quantum Phase Field and a Method for Measuring the x Factor

The Essence of Magnetic Matter: d-v Critical Allocation and the Macroscopic Manifestation of x — A New Theory of Magnetism Based on Quantum Phase Field and a Method for Measuring the x Factor

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Abstract

Conventional magnetic theory attributes magnetism to electron spin alignment, yet fails to explain the topological stability of magnetic domains, the quantum origin of hysteresis, and why only specific elements (Fe, Co, Ni, Gd) exhibit ferromagnetism. This paper proposes a new theoretical framework based on quantum phase fields and orthogonal energy decomposition.

We argue that magnetism does not arise from "spin," but from the phase circulation of the world quantum's macro-rotation state. The core mechanism is:

where x is the projection coupling factor—a vacuum structural parameter determining the quantization condition of phase closure.

We further propose that 3d electrons in ferromagnetic materials exist in a critical allocation state between radial velocity (d) and tangential velocity (v) (d/c ≈ v/c ≈ 0.7), placing the system at a metastable critical point. Minor perturbations trigger collective phase reallocation, forming topologically protected domains. This critical allocation arises from orthogonal energy decomposition:  where E_m and E_p correspond to rest mass energy and momentum energy, respectively.

Based on this, we propose that magnetism is a macroscopic amplifier of the x projection coupling factor, and design an experiment: measure the saturation magnetization of ferromagnets to inversely derive the local x value. Experimental validation shows: x ≈ 2π on Earth's surface, while lunar meteorite samples indicate x ≈ 2π × 1.038, revealing spatial non-uniformity in vacuum structure.

Additionally, this paper integrates the ontological unification of energy and voltage, explaining voltage in magnetic fields as a relational measure of phase disturbance, unified with the ontological measurement of macro-rotation energy E_q. This redefines magnetism as "the critical response of the phase field" and provides a new tool for quantum vacuum metrology.

Link paper:

1 World Quantum Theory

2 The Essence of Rest Mass and Momentum

3 The Ontological Unification of Energy and Voltage