It is presented in the form of a physics narrative, in part because all our work has been previously published. The narrative form avoids duplication but importantly shows how the various results of our work over these years are interconnected; the mathematical details and physics geophysics arguments may be found in our referenced publications. I hope this presentation will make the importance of our work easily understood, retrieved, and useful. Our efforts started with the research into the area initially called cold fusion and later referred to as low-energy nuclear reactions. Having had substantial experience in nuclear physics these experiments clearly presented a challenge to contemporary physics as we explained in our IJTP paper. Therefore, we decided to examine possible alternative particle composites that may have been overlooked in the early days of the development of nuclear and atomic physics in the last century. After considerable efforts along these lines, including numerous false starts, we finally came to focus on a new conceptual configuration - an apparently strange Compton-scale composite; specifically the tresino. That might be responsible for the experimental observations. Indeed, observations in other areas of physics were also suggested in this early paper and have been discussed in other publications.

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