@Cydonia,
Thank you for sharing an article about the W-L theory. I was able to learn more about it, and the fact that the lack of gamma ray emission is key to explaining the LENR theory. After reading your article, I realized that my previous post may have been contradictory to Professor Li's model, which requires the concurrent capture of electrons and neutrons to avoid gamma radiation. It seems that my model is quite close to the W-L theory. Both of these reactions (12-C + n -> 13-C and 14-N + n -> 15-N) involve some form of mass deficit being emitted, typically in the form of gamma rays.
Unexpectedly, I arrive at a conclusion by recalling my gravitational paper, in which I wrote about the missing energy as below, (the paper available at http://ryoji.info/r424e.pdf on page 4)
"The existence of a repulsive field may account for missing energy observed in collision experiments. If the emission of a repulsive gravitational field can be observed directly in such experiments, it would also be detectable with laser interferometry, as the spacetime fabric consists of background noise with energy proportional to 1/f. What would be detected is the energy that has not been converted to kinetic energy of the massive particles generated by the collisions. If this field can account for all missing energy, then this would provide strong evidence that we no longer expect to uncover new fundamental physical properties of spacetime."
In high-energy fields such as those found in hot fusion or nuclear fission, missing energy is often recorded as gamma radiation. This is likely due to the chaotic nature of spacetime, which can produce high-energy electromagnetic waves. However, in low-energy fields such as LENR, missing energy is thought to be released as gravitons rather than gamma radiation. Therefore, it is possible that LENR does not emit high levels of gamma radiation, but instead releases energy as unobserved gravitons.
It took me over 20 years to complete my paper on gravitational research, and I have been away for a decade. However, today I was able to return to that work by considering LENR.