#Resonance

What is an Atom?

An atom is a remarkable example of how stable oscillating instances can form resonances with other stable instances.
Resonances arise between rotating electrons and their counterparts. The more resonances they find, the stronger their mutual bond becomes, and the closer the electrons arrange themselves around each other.

A compact conceptual framework describing how dispersion emerges in the Rotonal LEDO-Field: not through velocity differences, but through frequency-selective resonance coupling.

Assessment

On basis of the Roton-Model, we predict additional attractions within an atom which do not match with calculations by a pure Coulomb potential.

Hypthesis:

• The individual electron-proton entanglement leads to a constant additional attraction between each electron and the nucleus.
• Non-Entangled additional electrons in a Ion (e.g. H-Atom) should not show such a tight coupling.
• The Shell-Rotons (and Resonons) lead to additional attraction which are dependent on the total number of electrons and their spatial (x,y,z) contributions to a shell of specific size.

Observation

Verification: