Theorem: A Static Magnetic N-pole Becomes an Oscillating Electric N-pole in a Cosmic Axion Field
Christopher T. Hill
TL;DR
The paper demonstrates that a cosmic axion field causes any static magnetic N-pole to develop an oscillating electric N-moment, linking axion physics with classical electrodynamics.
Contribution
It provides a simple, accessible derivation showing how axion fields induce oscillating electric moments in static magnetic sources.
Findings
Static magnetic N-poles develop oscillating electric moments in axion fields.
The result is derived directly from classical Maxwell equations with axion source terms.
The derivation is accessible to those with basic graduate-level electrodynamics knowledge.
Abstract
We show for the classical Maxwell equations, including the axion electromagnetic anomaly source term, that a cosmic axion field induces an oscillating electric N-moment for any static magnetic N-moment. This is a straightforward result, accessible to anyone who has taken a first year graduate course in electrodynamics.
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Taxonomy
TopicsQuantum and Classical Electrodynamics · Relativity and Gravitational Theory · Scientific Research and Discoveries