Abstract
A new theoretical prediction that a plasma can produce antineutrinos is used to solve the solar neutrino problem. The difference between electron-positron induced fusion, and inertial fusion experiments that have been unsuccessful so far as commercial fusion reactors is also discussed.
Highlights
A new theoretical prediction that a plasma can produce antineutrinos is used to solve the solar neutrino problem
The neutron takes about fifteen minutes to jump back to its normal state according to the following reaction: neutron = proton + electron + antineutrino, and this is the process by which a plasma continuously produces antineutrinos
The nebula [1], the plasma formed by a Supernova explosion can produce antineutrinos in this fashion as can too the plasma of the solar wind
Summary
A new theoretical prediction that a plasma can produce antineutrinos is used to solve the solar neutrino problem. The difference between electron-positron induced fusion, and inertial fusion experiments that have been unsuccessful so far as commercial fusion reactors is discussed. Antineutrinos, Electron-Positron, Fusion Reactors, Solar Neutrino, Plasma
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