Quantization of Atomic and Nuclear Rest Masses

TL;DR

This paper introduces a phenomenological quantization of atomic and nuclear rest masses, proposing a resonance synchronization mechanism that links atomic and nuclear energy scales, opening new avenues for nuclear reaction control.

Contribution

It presents the first phenomenological quantization rule for atomic and nuclear masses, based on resonance synchronization in coupled oscillators, bridging atomic and nuclear physics.

Findings

Quantization rule applied to various atoms and nuclei.

Resonance synchronization explains atomic-nuclear energy interactions.

Potential for controlling nuclear reactions via atomic processes.

Abstract

We were able to quantize phenomenologically the first time the atomic and nuclear rest masses. Note that this quantization rule is justified for atoms and nuclei with different A, N and Z and the nuclei and atoms represent a coherent synchronized systems -- a complex of coupled oscillators (resonators). The cooperative resonance synchronization mechanisms are responsible for explanation of how the electron volt world can influence the nuclear mega electron volt world. It means that we created new possibilities for inducing and controlling nuclear reactions by atomic processes.