Patent Number: 
Section: claims

1. A fast neutron emitting source multiplier assembly, consisting essentially of:(1) a driver source of 252Cf;(2) a surface material consisting essentially of foil or wire; and(3) a beryllium segment as a multiplier segment;wherein the driver source of 252Cf is disposed on the surface material, the beryllium segment as a multiplier segment surrounds and encapsulates the driver source of 252Cf and surface material and the multiplier assembly is disposed and sealed in a hollow tube. 2. The fast neutron emitting source multiplier assembly of claim 1, wherein the beryllium segment is a machined beryllium segment having a notch formed approximately in the center of the beryllium segment into which the 252Cf is disposed. 3. The fast neutron emitting source multiplier assembly of claim 1, wherein the beryllium is sized to capture the energy of substantially all of the alpha decay particles from 252Cf which transforms the energy of these particles into neutrons. 4. The fast neutron emitting source multiplier assembly of claim 3, wherein the neutrons produced directly by the 252Cf and those produced by the transformation of alpha and fission products by the beryllium multiplier assembly are further multiplied by beryllium (n,2n) reactions before they are emitted from the source assembly. 5. The fast neutron emitting source multiplier assembly of claim 1, wherein the surface material is palladium foil or wire. 6. The fast neutron emitting source multiplier assembly of claim 1, wherein the hollow tube is sealed by top and bottom end plugs wherein the multiplier assembly is held in place against one of the end plugs by a spring. 7. The fast neutron emitting source multiplier assembly of claim 6, wherein helium gas evolving from the neutron source reaction is maintained within a void volume within the hollow tube. 8. The fast neutron emitting source multiplier assembly of claim 6, wherein the neutron emitting source is configured to provide a steady source of neutrons sufficient to safely startup a nuclear reactor. 9. The fast neutron emitting source multiplier assembly of claim 1 in which a shield curtain of material capable of stopping alpha particles is interposed between the 252Cf driver source and the beryllium segment to modulate the neutron source strength by interfering with transmission of alpha particles to the beryllium segment.