Patent Number: 
Section: claims

1. A portable neutron generator comprising:a vacuum chamber housing defining a vacuum chamber and an ion beam inlet, wherein the vacuum chamber is passively cooled without the use of liquid cooling;a rotating target positioned within the vacuum chamber, the ion beam inlet oriented to receive ions such that the ions impinge upon the rotating target to cause neutrons to be emitted, wherein the rotating target comprises a copper alloy;a motor core positioned within the vacuum chamber and coupled to the rotating target, wherein the motor core is configured to rotate the rotating target at greater than 200 Hz during operation; anda motor stator electromagnetically coupled with the motor core. 2. The portable neutron generator of claim 1, wherein the rotating target comprises a rotating disk having a coating to convert received ions into neutrons. 3. The portable neutron generator of claim 2, wherein the coating comprises titanium. 4. The portable neutron generator of claim 3, wherein the coating comprises titanium deuteride. 5. The portable neutron generator of claim 2, wherein the copper alloy comprises a copper zirconium (Cu—Zr) alloy or a copper chromium zirconium (Cu—Cr—Zr) alloy. 6. The portable neutron generator of claim 5, wherein the rotating disk further comprises an annular body and a rim integrally formed with the annular body and radially outward of the annular body. 7. The portable neutron generator of claim 1, wherein the motor core is supported by liquid metal bearings. 8. The portable neutron generator of claim 1, wherein the motor stator comprises permanent magnets. 9. The portable neutron generator of claim 1, wherein the vacuum chamber contains no rotating seals. 10. The portable neutron generator of claim 1, wherein the vacuum chamber housing is configured to maintain a vacuum at a pressure of 10e-3 Torr or less in the vacuum chamber. 11. The portable neutron generator of claim 1, further comprising a nut that secures the motor core to the rotating target using a conical mounting configuration. 12. A portable neutron generator comprising:an ion source;an ion accelerating structure coupled to the ion source;a vacuum chamber housing coupled to the ion accelerating structure, wherein the vacuum chamber housing defines a vacuum chamber and an ion beam inlet, wherein the ion source, the ion accelerating structure, and the vacuum chamber housing cooperatively define a sealed vacuum environment including the vacuum chamber, and wherein the vacuum chamber is passively cooled without the use of liquid cooling;a rotating target positioned within the vacuum chamber, the ion beam inlet oriented to receive ions such that the ions impinge upon the rotating target to cause neutrons to be emitted, wherein the rotating target comprises a copper alloy;a motor core positioned within the vacuum chamber and coupled to the rotating target, wherein the motor core is configured to rotate the rotating target at greater than 200 Hz during operation; anda motor stator electromagnetically coupled with the motor core. 13. The portable neutron generator of claim 12, wherein the rotating target comprises a rotating disk having a coating to convert received ions into neutrons. 14. The portable neutron generator of claim 13, wherein the coating comprises titanium deuteride. 15. The portable neutron generator of claim 13, wherein the copper alloy comprises a copper zirconium (Cu—Zr) alloy or a copper chromium zirconium (Cu—Cr—Zr) alloy. 16. The portable neutron generator of claim 12, wherein the motor stator comprises permanent magnets. 17. The portable neutron generator of claim 12, wherein the vacuum chamber contains no rotating seals. 18. The portable neutron generator of claim 12, wherein the vacuum chamber housing is configured to maintain a vacuum at a pressure of 10e-3 Torr or less in the vacuum chamber.