Elementary Particles: Cracking the Code
This paper presents a preliminary QAM model as the most accurate elementary particle table ever proposed. A 1024-QAM table is presented that graphically displays how all elementary particles are related, similar to the Standard Periodic Table in chemistry. Interestingly, the math that describes QAM is simple and elegant. A robust model for elementary particles will need to meet 5 criteria to properly account for the relationships. Yang-Mills and other particle models have not been able to correctly account for the Mass Gaps. Antimatter, QCD, Baryogenesis, and Lattice QCD are briefly discussed. An explanation and examples are provided, along with possible error sources. Suggestions for further research are made. This paper provides compelling evidence that our universe is blinking at a high frequency. (This is an earlier technical paper that has since been superceded.)