Electron beam generator comprising an electron emitting device adapted to emit an electron beam when heated to an elevated temperature, wherein the electron emitting device comprises a filament having a spiral portion.

Electron beam generator comprising an electron emitting device adapted to emit an electron beam when heated to an elevated temperature, wherein the electron emitting device comprises a filament having a spiral portion.

The invention provides methods and apparatus for extracting ions, and further for producing neutrons from the extracted ions. In an aspect, there is provided a method for extracting ions involving the following step: in a vacuum chamber applying voltages to a spark gap between two electrodes comprising coatings of a hydrocarbon, each voltage sufficient to trigger a spark discharge in the gap sufficient to dissociate the hydrocarbon and extract therefrom hydrogen ions, wherein the hydrocarbon is a nonvolatile liquid sufficiently non-viscous to flow and re-coat holes in the coatings between each spark discharge.

The invention provides methods and apparatus for extracting ions, and further for producing neutrons from the extracted ions. In an aspect, there is provided a method for extracting ions involving the following step: in a vacuum chamber applying voltages to a spark gap between two electrodes comprising coatings of a hydrocarbon, each voltage sufficient to trigger a spark discharge in the gap sufficient to dissociate the hydrocarbon and extract therefrom hydrogen ions, wherein the hydrocarbon is a nonvolatile liquid sufficiently non-viscous to flow and re-coat holes in the coatings between each spark discharge.

The present invention provides methods and systems for the flexible ion generation device includes at least one dielectric layer, at least one trace having a first end and a second end, the at least one trace is engaged to the at least one dielectric layer, and at least one emitter engaged to the trace for emitting ions.

The present invention provides methods and systems for the flexible ion generation device includes at least one dielectric layer, at least one trace having a first end and a second end, the at least one trace is engaged to the at least one dielectric layer, and at least one emitter engaged to the trace for emitting ions.

The present invention provides methods and systems for the flexible ion generation device includes at least one dielectric layer, at least one trace having a first end and a second end, the at least one trace is engaged to the at least one dielectric layer, and at least one emitter engaged to the trace for emitting ions.

The present invention provides methods and systems for the flexible ion generation device includes at least one dielectric layer, at least one trace having a first end and a second end, the at least one trace is engaged to the at least one dielectric layer, and at least one emitter engaged to the trace for emitting ions.

Electron beam generator comprising an electron emitting device adapted to emit an electron beam when heated to an elevated temperature, wherein the electron emitting device comprises a filament having a spiral portion.

Disclosed is an electron beam generation source including: an electron discharge part extending on a desired axis and configured to discharge electrons; a support part electrically connected to a power supply device that supplies electric power to the electron discharge part; a tension holding part connected between one end of the electron discharge part and the support part and configured to hold tension of the electron discharge part with a pressing force or a tensile force; and a power supply path part having one end electrically connected to the support part and the other end electrically connected to the one end of the electron discharge part. An electric resistance value of the tension holding part is larger than an electric resistance value of the power supply path part.