Sonofusion: Squeezed Deuteron Clusters, With Small Size, High Energy Density but No High Energy Particles

Inertial confined fusion when viewed as a natural process compares with sonofusion's electromagnetically squeezed deuteron cluster. Sonofusion capitalizes on its very small size and its higher energy densities. It is a relatively cool process, with the endothermic removal of heat, 13.6 ev, from a target implanted with clusters of deuterons; the fusion environment. The energy densities approach those of the deuteron sepaaration in muon DD fusion. This helps explain sonofusion's experimental results of heat and helium four.