Atomic Structure

MQ researchers have recently identified a correlation between the Fine Structure Constant (FSC) and the base orbits of electrons in the atom. This new research arises from an MQ length distortion effect^{1(Appx. A)} which identifies a discrete series of orbital radii.

The sequence under investigation uniquely identifies the atomic structure (i.e. the base orbital states) of atoms for our universe. The remaining sequences correspond to alternate universes with different atomic radii. An initial review suggests that some if not most of these sequences do not describe stable atomic structures, although they are difficult to model as the sequences also define the constants of nature and the relations between the fundamental measures^{1(Sec. 3.2)} that we use to describe the laws of nature.

Most notably, the research opens the door to a single nomenclature^{2(Sec. 2.3)} that unifies MQ descriptions of gravity^{2(Sec. 2.1)} with those of electricity and magnetism. The self-referencing^{2(Sec. 3.4)} definitions that form the basis of the magnetic, electric and Columnb constants can now be defined as a geometry (similar to relativity) directly from the existing quantum gravity expressions^{3(Sec. 2.1)} that underlie measurement quantization and specifically define the FSC.

Overall, MQ has opened several new doors into understanding gravity, electricity and magnetism. While this research is not ready for publication, research is underway with results expected for publication near year-end.

Objectives

• While the fundamental structures discussed in this group are still in development, details will emerge outlining a simple mathematical sequence which not only defines the Fine Structure Constant, but provides a complete description of atomic structure. New research will be needed to determine the accuracy of this new approach and some understanding as to why the physical makeup of atomic structure appears as a conseqence of a simple mathematical function.

Supporting Research

• The Fine Structure Constant
• Atomic Radii and Numerical Sequences
• Correlations between Magnetism and Gravitation