Extending Standard Atomic Kernel Model with New Interpretation of Strong Forces

TL;DR

This paper introduces the YY model, an extended interpretation of strong forces within the atomic nucleus that aligns with the Standard Model but offers new structural insights and potential explanations for subatomic and cosmological phenomena.

Contribution

The YY model provides a novel, non-mathematical framework for describing strong forces and nuclear structure, compatible with existing theories but offering new avenues for research and verification.

Findings

Offers a new structural description of atomic nuclei.

Predicts subatomic phenomena for further exploration.

Provides a unified approach linking micro and macro physics.

Abstract

This paper gives an extended model of the atomic nucleus - we call it the YY model, which allows a new description for strong forces from the well-known Standard Model. The forces that hold the nucleus together (protons and neutrons) can be expressed in a new way. Based on the YY model, more structural description details for an atomic nucleus will be possible than is the case with the conventional description. The YY model is compatible with the standard model. However, it allows for very delicate considerations when modelling the distribution of protons and neutrons within or around an atomic nucleus. Furthermore, it can explain many subatomic processes in an elegant way. The YY model predicts some subatomic aspects that can be explored in a deeper step. Our approach also includes a native common root for the description of macrophysics (space, dark matter and cosmology). Following a model-driven approach - a methodology widely used in computer science and informatics - the investigations in this paper will completely dispense with mathematical formulations. In addition, energy balances in the transformations are left out. Many different aspects that can be derived from this new mechanism can then be verified. We hope to gain the confidence of many other physicists in the YY model. They could make detailed theoretical and experimental verifications by adding additional descriptive elements and linking the YY model to the known quantum field theories and the widely accepted big bang theories for space and cosmology, especially for research on dark matter.