Patent Number: 047939613
Section: claims

1. A positive ion source for producing a beam of high concentration positively charged molecular ions when supplied witn hydrogen or deuterium, said ion source comprising: a plasma chamber constructed so as to minimize the path length of positive ions in the chamber before such ions are extracted therefrom,  electron emitting means positioned in said chamber,  means for metering hydrogen or deuterium into said chamber,  a plasma grid forming a wall of said plasma chamber and spaced form said electron emitting means and having an extraction opening therein through which a beam of high concentration positive ions is extracted, said extraction opening having a small cross-section reactive to an adjacent cross-section of said chamber,  extractor electrode means located outside said chamber adjacent to an in alignment with said extraction opening of said plasma grid for extracting a beam of positive ions from said chamber through said extraction opening,  said electron emitting means being located closely adjacent with respect to said plasma grid and closely adjacent to said extraction opening in said plasma grid so that the path length of positive ions from the neighborhood of said electron emitting means to said extraction opening is short in relation it the mean free path of the hydrogen or deuterium molecules in said chamber to achieve a high concentration of hydrogen or neuterium ions and to minimize the production of other ions species by collisions of the positive hydrogen or dueterium ions with hydrogen or deuterium molecules.  in which said chamber has walls other than said plasma grid,  said source having magnetic means for producing a multi-cusp magnetic field between said walls and said emitting means to reflect electrons away from said walls for largely confining the plasma in said chamber to the space between said emitting means and said plasma grid.  said magnetic means including an array of magnets of alternating polarity adjacent said walls.  said magnetic means including rows of permanent magnets adjacent said walls and of alternating polarity.  said electron emitting means being at a short distance from said plasma grid,  said chamber having a length which is substantially greater than said short distance.  said chamber having an end wall on the opposite end of said chamber from said plasma grid,  said chamber having side wall means extending between said end wall and said plasma grid,  said chamber having a length between said end wall and said plasma grid which is substantially shorter than the distance between opposite portions of said side wall means.  including magnetic means forming a multi-cusp magnetic field adjacent said end wall and said side wall means for reflecting electrons to largely confine the plasma in said chamber to the space between said emitting means and said plasma grid.  said mageetic means including arrays of permanent magnets of alternating polarity adjacent said end wall and said side wall means.  emitting electrons from a cathode located in said space,  forming an anode electrode form certain of the walls defining said space and from a plasma grid having an aperture therein of a cross-section substantially smaller than the cross-section of said space,  accelerating said electrons by a positive voltage between said anode electrode and said cathode and thereby producing a plasma containing a high concentration of positive molecular ions,  and extracting a beam of said high concentration positive ions through said aperture in said anode electrode while providing a short path length for said extracted beam of ions relative to the mean free path of the gas molecules to achieve a high concentration of positive ions and to minimize the production of other ion species due to collisions between the positive molecular ions and the gas molecules. 2. A positive ion source according to claim 1, 3. A positive ion source according to claim 2, 4. A positive ion source according to claim 2, 5. A positive ion source according to claim 1, 6. A positive ion source according to claim 1, 7. A positive ion source according to claim 6, 8. A positive ion source according to claim 7, 9. A method of producing a beam of high concentration positive molecular ions and extracting the beam from a space containing a molecular gas at a sub-atmospheric pressure, said method comprising the steps of: 10. A method according to claim 9, including a the step of using hydrogen as the molecular gas. 11. A method according to claim 9, including the step of using deuterium as the gas 12. A method according to claim 9, in which a multi-cusp magnetic field is produced in portions of said space remote from said anode for largely confining the plasma to the portion of said space between said anode and said cathode.