What should we do next ? - A relevant question from Matt Trevithick
Several replications of a methodology to generate an ultra dense form either of protium or deuterium have been conducted. The conclusion drawn from experiments upon the material is that a particle spacing of approximately 52 femtometer is induced by a phase change from a less dense state, when prompted by a disturbance (laser, beta ray, even fluorescent lighting.) This lattice like spacing is within proximity for nucleons to tunnel—and associated fusion reaction products are detected with deuterium usage.
In addition, the generation of mesons, different flavors of which are generated based on protium or deuterium experiments, is a serendipitous discovery. Protium yields a decay chain resultant of negative muons, which act as 200 times more massive electrons, capable of also achieving the 52 fm spacing of nucleons and yield a fusion reaction. The energy invested to generate these muons is much less than prior methodology. Serious investment to develop a commercial muon driven fusion process is ongoing. Their first product is likely to be a testing article based upon the generation of neutrons in a field setting.
Over the prior two years, the focus shifted to direct applications for the meson decay-chain products. About 54% of all energy is spirited away by neutrinos, leaving the possibility of tapping a relativistic flow of charged particles for direct conversion to electricity. The particle flux in the small lab experiments is sufficient to directly drive an oscilloscope.