Patent Number: 
Section: claims

1. A single-use neutron generator, comprising:a power supply;a fuel source configured to provide neutron-producing fuel; anda plasma confinement device, the plasma confinement device comprising electrodes coupled to the power supply, wherein activation of the power supply provides a voltage difference to the electrodes of the plasma confinement device configured to ionize at least a portion of the neutron-producing fuel to plasma and generate a plasma pinch of at least a portion of the plasma to generate neutrons, and wherein the activation of the power supply for a single use destroys, or disables beyond repair, at least one of the electrodes of the plasma confinement device. 2. The single-use neutron generator of claim 1, wherein the power supply includes power transmission components, and wherein the activation of the power supply destroys, or disables beyond repair, the power transmission components. 3. The single-use neutron generator of claim 1, wherein the electrodes comprise an inner electrode and an outer electrode, the inner electrode within an interior of the outer electrode, wherein the power supply is electrically coupled to the outer electrode and the inner electrode, and wherein the activation of the power supply is configured to provide the voltage difference between the inner electrode and the outer electrode. 4. The single-use neutron generator of claim 3, wherein the power supply is configured to apply an amount of power to the inner electrode and to the outer electrode that exceeds an operational tolerance of at least one of the inner electrode or the outer electrode. 5. The single-use neutron generator of claim 3, further comprising a neutron enhancing liner within an interior of the outer electrode, outside of the outer electrode, or both. 6. The single-use neutron generator of claim 1, wherein the power supply includes a superconducting magnetic energy storage, a plurality of ultra-capacitors, an explosive direct energy converter, or a flywheel energy storage device. 7. The single-use neutron generator of claim 1, wherein the power supply is configured to apply at least one gigawatt (1 GW) of power to the plasma confinement device during the single use. 8. The single-use neutron generator of claim 1, wherein at least a portion of the neutron-producing fuel in the plasma pinch during the single use undergoes a thermonuclear fusion reaction responsive to heating of the plasma pinch. 9. The single-use neutron generator of claim 1, further comprising a housing, and wherein the plasma confinement device, the fuel source, and the power supply are disposed within the housing. 10. The single-use neutron generator of claim 1, wherein the power supply is configured to supply at least 500 kilo amps. 11. The single-use neutron generator of claim 1, wherein the plasma pinch corresponds to plasma that is formed from the neutron-producing fuel and that is compressed by a magnetic field induced by current flowing through the plasma, and wherein the plasma pinch comprises a sheared-flow stabilized z-pinch. 12. A method of generating neutrons, comprising:providing neutron-producing fuel within an interior of a plasma confinement device of a neutron generator, the neutron-producing fuel provided from a fuel source of the neutron generator, and the plasma confinement device comprising electrodes coupled to a power supply; andactivating the power supply to apply power to the plasma confinement device to provide a voltage difference to the electrodes configured to ionize at least a portion of the neutron-producing fuel to plasma and generate a plasma pinch of at least a portion of the plasma to generate neutrons, and wherein activation of the power supply for a single use destroys, or disables beyond repair, at least one of the electrodes of the plasma confinement device. 13. The method of claim 12, wherein the electrodes comprise an outer electrode and an inner electrode, and wherein applying the power melts at least a portion of at least one of the outer electrode and the inner electrode. 14. The method of claim 12, wherein activating the power supply for the single use renders the power supply inoperable. 15. The method of claim 12, wherein at least some of the neutrons are produced by thermonuclear fusion reaction of particles of the plasma pinch. 16. The method of claim 12, wherein the neutron-producing fuel includes deuterium, tritium, lithium, or a combination thereof. 17. The method of claim 12, further comprising increasing a number of neutrons released during the single use by using a neutron enhancing liner disposed within an outer electrode of the plasma confinement device. 18. The method of claim 12, wherein the neutrons are produced at a rate greater than 10{circumflex over ( )}19 neutrons per second. 19. A single-use neutron generator, comprising:an outer electrode;an inner electrode within an interior of the outer electrode;a power supply electrically coupled to the outer electrode and the inner electrode, wherein activation of the power supply generates a voltage difference between the outer electrode and the inner electrode; anda fuel source configured to provide neutron-producing fuel between the outer electrode and the inner electrode, wherein during use after activation of the power supply, the voltage difference is configured to ionize at least a portion of the neutron-producing fuel to plasma and generate a plasma pinch of at least a portion of the plasma to generate neutrons via a thermonuclear reaction, and wherein the activation of the power supply for a single use destroys, or disables beyond repair, at least one of the outer electrode or inner electrode. 20. The single-use neutron generator of claim 19, wherein the power supply is configured to apply an amount of power to the inner electrode and to the outer electrode that exceeds an operational tolerance of at least one of the inner electrode, the outer electrode, or the power supply.