Patent Number: 
Section: claims

1. An ion generator comprising:a vacuum chamber;an anode in the vacuum chamber, wherein the anode is a hollow anode formed by a metallic matrix and adapted to be positively charged and pressurized by a gas whereby electrons of the gas can be stripped off and diffused through the metallic matrix, whereby a purer reactive ionized gas can be supplied to interact enhancing the potential of high energy plasma double layers;two movable cathodes in the vacuum chamber; anda servo actuated motor operably connected to each movable cathode to move the two movable cathodes;whereby the position of the two movable cathodes relative to the anode can be varied. 2. The ion generator of claim 1, said each movable cathode further comprising a cathode disk and a cone shaped winding. 3. The ion generator of claim 2, further comprising a cone housing the cone shaped winding. 4. The ion generator of claim 1, wherein the vacuum chamber is capable of containing a gas under pressure, the gas selected from the group consisting of helium, hydrogen, deuterium, tritium, argon, water, nitrogen, oxygen, neon, and mixtures thereof. 5. The ion generator of claim 1, wherein the vacuum chamber is capable of containing a gas at a pressure up to and including 10-9 torr. 6. The ion generator of claim 1, further comprising a direct current regulated power supply for supplying radio and microwave frequencies, whereby plasma regimes in the ion generator may be enhanced. 7. The ion generator of claim 1, wherein the two movable cathodes comprising a material conducive to good electron emission. 8. The ion generator of claim 7, wherein the material selected from the group consisting of copper, stainless steel, aluminum, and tungsten. 9. The ion generator of claim 7, wherein the geometry of the electromagnetic field generators is selected from the group consisting of a spherical shape, a conical shape and geometric variants thereof, whereby the electromagnetic field providing the capability to either push ions away from the anode or coalesce toward the anode having the effect of enhancing natural formation of plasma double layers. 10. The ion generator of claim 1, wherein the servo actuated motors are capable of providing at least <0.01 mm of positional movement at a rate of 0.01 m to 1 m/second. 11. The ion generator of claim 1, further comprising electromagnetic field generators to further guide and tune high energy the plasma double layers. 12. The ion generator of claim 11, wherein the electromagnetic field generators comprise a coil geometry whereby an induced field can be even or uniform or adjusted to be stronger at one end of the vacuum chamber than at another end of the vacuum chamber. 13. The ion generator of claim 11, wherein the electromagnetic field generators are powered by an AC or DC power supply, whereby current being a primary factor affecting plasma manipulation. 14. The ion generator of claim 1, further comprising an anti-chamber which is adapted to enable the anode to be retracted without the need to pressurize the vacuum chamber from an experimental vacuum setting, separated by a butterfly valve capable of maintaining a desired pressure differential. 15. The ion generator of claim 14, wherein the anti-chamber comprising a lower section composed of a screw-driven base that feeds a driver with an anode mount, and an upper section that can be opened to enable change-out of the anode that is under a constant flow of inert gas to prevent atmospheric water adsorption.