Physics & Philosophy
Published September 23, 2024 | Version v3
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Magnetic Ion Modulation (MIM) Theory: A Novel Approach to Controlling Ion Behavior via Magnetic Fields in Biological and Non-Biological Systems

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  • 1. Unaffiliated

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The Magnetic Ion Modulation (MIM) Theory introduces a novel mathematical framework for controlling and predicting ion behavior in both biological and non-biological systems using external magnetic fields. This groundbreaking theory has potential applications in neuroscience, plasma physics, quantum computing, and chronic pain treatment. The full paper provides a detailed derivation of the MIM equation, examples of its application, and proposed methods for experimental validation.

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Dates

Created
2024-09-19
This paper presents the groundbreaking Magnetic Ion Modulation (MIM) Theory, which explores how magnetic fields modulate ion behavior across biological, physical, and quantum systems. The theory has applications in fields such as neuroscience, plasma physics, quantum computing, and chronic pain treatment. By introducing the Ion Modulation Constant 𝑇 𝑛 T n , the paper provides a mathematical framework for predicting ion dynamics and offers new avenues for research and experimentation.