Describing a Possible Way to Realize Controlled Nuclear Fusion at Low Temperatures

This paper presents a new way to realize controlled nuclear fusion. The way is that a single energy
neutron beam fuses with given nuclei, such as lithium nuclei or boron nuclei, so that the nuclear
energy is released. The sort of fusion can be achieved at low temperatures, because a neutron
has no charge and has a large reaction cross section with a nucleus. The fusion is easy to control
and does not produce radioactive spent nuclear fuel. One of the five sorts of neutron sources is the
electron neutron source in which a single energy electron beam collides with a single energy bare
nucleus beam, such as the deuteron, to produce a single energy neutron. These neutrons irradiate
target nuclei and are absorbed by the target nuclei, so that nuclear energy is released. Compared
with conventional fusion, it has the disadvantage of releasing less energy and energy density. In
addition, it takes a certain amount of energy to produce a beam of single-energy neutrons. However,
if some of the input energy can be effectively recycled, the fusion process must produce more energy
than the input energy. The fusion of protons or deuterons with some light nuclei is discussed. The
sort of fusion.is easily realized. This fusion process can be done at low temperatures (in principle, at
room temperature), because a neutron has no charge and has a very large cross section with nuclei.
The fusion is easy to control and does not produce radioactive spent nuclear fuel.