With recent advances in the field of measurement quantization, new opportunities for research have opened with investigations that correlate gravity and magnetism, ultimately providing a new mathematical framework for particle physics. Specifically, the Fine Structure Constant has been found to be a geometric relation in much the same manner as pi. In turn, the relation represents a specific sequence, one of several sequences. Each sequence defines the base states of electron orbits, the Fine Structure Constant (FSC) indentifying the lowest base state consistent with electron orbits in our universe.

This discovery opens the door to several new fields of investigation. Are the other sequences viable universes? It may be that the physical laws associated with other sequences are unstable. But if there are stable states, then a new door opens as to why our universe is consistent with the sequence we identify with the FSC. The sequences also open the door to potentially understanding what conditions preceeded the earliest known epoch. The mere fact that there are multiple sequences, that our universe exists and that it corresponds to one of those sequences implies the existence of state-selection external to the universe, that being whatever properties and/or physical characteristics that played into the result ... us.

The sequences also provide the long-saught bridge connecting gravity with electromagnetism in expression form and in physical description. The two phenomena may now be described using a single nomenclature ... fundamental units of measure^{1(Sec. 3.2)} ... to describe and interrelate each as desired. Notably, this is an exciting new field of research and we have not completed or published a paper regarding the new results. But, much of this work will be available soon.

Significant fields of research are

• Atomic Structure
• Mathematical Foundations to the Laws of Nature