What question did this study set out to answer?

The aim is to reformulate nuclear fusion principles within the MUT v5.8 framework focusing on phase locking in scalar fields.

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February 17, 2026Open Access

MUT v5.8.15: Supplement XII: Nuclear Fusion through the Lens of Background Scalar Field Phase Resonance

Key Points

The aim is to reformulate nuclear fusion principles within the MUT v5.8 framework focusing on phase locking in scalar fields.
Utilized the MUT v5.8 framework to analyze nuclear fusion processes.
Derived resonance conditions at subatomic scales using specific constants.
Expressed fusion energy output based on scalar field flux released during nuclear merging.
Introduced a new framework for predicting binding energies across the periodic table.
Demonstrated that phase coherence could enable controlled nuclear fusion, rather than relying solely on thermal pressure.

Abstract

This paper reformulates nuclear fusion within the MUT v5.8 framework, interpreting it as a phase-locking event between nodes of the Background Scalar Field. The resonance condition is derived deterministically using the MUT constant � and the local scaling factor � at subatomic scales. Fusion energy output is expressed as the surplus scalar field flux released during the merging of nuclei, providing a predictive, frequency-based framework for binding energies across the periodic table. This supplement offers a foundational approach to controlled nuclear fusion via phase coherence rather than thermal pressure.

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