Patent Number: 
Section: claims

1. A neutron generator comprising:a housing defining an ion source chamber;an electron nano-emitter arrangement comprising multiple field electron emitters located in the ion source chamber;an electrode arrangement comprising an anode separated from the electron nano-emitter arrangement by a separation space, wherein the separation space holds an ionizable gas; anda permanent magnet that provides a magnetic field in misalignment with an electric field generated by the electrode arrangement. 2. The neutron generator of claim 1, wherein the housing has a longitudinal axis, the electron nano-emitter arrangement being oriented to emit electrons along a path parallel to the longitudinal axis, wherein the anode is not in the path parallel to the longitudinal axis. 3. The neutron generator of claim 2, wherein the electron nano-emitter arrangement comprises a substrate providing a substantially circular substrate on which the field electron emitters are supported, the substrate being co-axial with the longitudinal axis of the housing and extending transversely thereto. 4. The neutron generator of claim 2, wherein the magnetic field is aligned perpendicular to the longitudinal axis. 5. The neutron generator of claim 2, wherein the permanent magnet is coaxial with the longitudinal axis of the ion source chamber. 6. The neutron generator of claim 1, wherein the permanent magnet and the multiple field electron emitters are located at a common longitudinal end of the housing. 7. The neutron generator of claim 2, wherein the anode is substantially annular and co-axial with the longitudinal axis of the ion source chamber, the anode being axially spaced from the multiple field electron emitters. 8. The neutron generator of claim 3, wherein an inner radius of the anode is greater than a radially outer extremity of the substantially circular substrate of the multiple field electron emitters. 9. The neutron generator of claim 1, further comprising a control arrangement to apply an ion source voltage pulse between the electron nano-emitter arrangement and the anode to generate the electric field, the electron nano-emitter arrangement serving at least in part as an ion source cathode. 10. The neutron generator of claim 9, wherein the ion source voltage pulse has an amplitude of 500 V or less. 11. The neutron generator of claim 9, wherein a turn-on/turn-off delay for an ion source comprising the electron nano-emitter arrangement and the anode is smaller than 1 μs. 12. The neutron generator of claim 1, wherein the field electron emitters comprise multiple nanotips, each nanotip comprising an elongated filament which is substantially aligned with a longitudinal axis of the housing. 13. The neutron generator of claim 1, further comprising: a target structure holding target particles, wherein the target particles comprise isotopes. 14. The neutron generator of claim 13, wherein the target particles comprise at least one of deuterium or tritium. 15. A neutron generator comprising:a housing defining an ion source chamber;an electron nano-emitter arrangement comprising multiple field electron emitters located in the ion source chamber;an electrode arrangement comprising an anode separated from the electron nano-emitter arrangement by a separation space by a separation space, wherein the separation space holds an ionizable gas, and wherein the anode is substantially annular and co-axial with a longitudinal axis of the ion source chamber; anda permanent magnet that provides a magnetic field in misalignment with an electric field generated by the electrode arrangement. 16. The neutron generator of claim 15, wherein the permanent magnet is arranged with respect to the electrode arrangement to provide the magnetic field substantially perpendicular to the electric field in at least one part of the ion source chamber. 17. The neutron generator of claim 15, wherein the permanent magnet is arranged to provide the magnetic field aligned perpendicular to the longitudinal axis of the ion source chamber. 18. The neutron generator of claim 15, further comprising a target structure positioned longitudinally opposed to the electron nano-emitter arrangement, wherein the target structure comprises one or more isotopes, and wherein the separation space is between the target structure and the electron nano-emitter arrangement. 19. The neutron generator of claim 18, wherein the isotopes comprise at least one of tritium and deuterium. 20. A neutron generator comprising:a housing defining an ion source chamber;an electron nano-emitter arrangement comprising multiple field electron emitters located in the ion source chamber;an electrode arrangement comprising an anode separated from the electron nano-emitter arrangement by a separation space, wherein the separation space holds an ionizable gas; anda permanent magnet that provides a magnetic field in misalignment with an electric field generated by the electrode arrangement, wherein the permanent magnet and the multiple field electron emitters are located at a common longitudinal end of the housing.