Albert Einstein’s mass-energy equation \ (E=mc²\) proved the mutual convertibility between mass and energy, laying the theoretical foundation for nuclear fission, nuclear fusion and nuclear explosion technologies. The mass loss observed in conventional nuclear reactions essentially results from the escape of partial high-energy gamma photons confined inside protons, neutrons and electrons. To date, the detailed microscopic mechanism of this partial energy release has not been fully clarified. Moreover, traditional energy release is disorderly and requires extreme operating conditions, with only a small fraction of the energy stored in elementary particles being utilized. Existing catalysis and resonance technologies mainly operate at the atomic nucleus level, which can be adopted as a near-term improvement approach. By applying catalysis and resonance, partial energy release can be made regular and controllable while reaction conditions are simplified, creating a new generation of nuclear energy technology superior to conventional fission and fusion. On this basis, this paper further puts forward an ultimate research direction: to explore catalysis and resonance methods that directly act on individual protons, neutrons and electrons. The goal is to realize the targeted and on-demand release of all high-energy gamma photons from every elementary particle and achieve full mass-energy conversion at the theoretical limit. Based on the confined photon model, this paper designs three parallel technical routes including special particle catalysis, resonant electromagnetic field catalysis and gravitational perturbation catalysis, following the principles of chemical catalysis and Edison’s exploratory research paradigm. Conventional nuclear technologies only enable disorderly partial energy release; atomic nucleus-level catalysis and resonance serve as upgraded solutions; while particle-level technologies targeting protons, neutrons and electrons represent the ultimate approach to fully harness energy from matter. This multi-tiered technical system can not only improve existing energy systems and mitigate nuclear pollution in stages, but also point out the ultimate form of energy utilization for humanity. This paper systematically elaborates the theoretical basis, technical schemes, existing difficulties and phased research plans.
Jiaqing Yan (Sun,) studied this question.
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