Patent Number: 
Section: claims

1. A device for ionizing and separating the constituents of a chemical mixture into ions having a relatively low mass to charge ratio (M 1 ) and ions having a relatively high mass to charge ratio (M 2 ), said device comprising: a wall surrounding an elongated chamber, said wall defining a longitudinal axis and having a first end and a second end, wherein said first end is formed with an opening and the chemical mixture is mounted on said wall for exposure to said chamber;  a central electrode positioned in said chamber and oriented substantially along said longitudinal axis;  a means for introducing a working gas into said chamber for ionization, said working gas having a mass to charge ratio (M w ) in said chamber between M 1  and M 2  (M 1  less than M w  less than M 2 );  a means for generating an axially oriented magnetic field in said chamber; and  a means for generating a radially oriented electric field crossed with said magnetic field and configured to cause said working gas to sputter and ionize the chemical mixture and to confine said low mass ions (M 1 ) for exit from said chamber though said first end and to direct said high mass ions (M 2 ) into said central electrode for capture thereon. 2. A device as recited in  claim 1  wherein said means for generating a radially oriented electric field in said chamber comprises a voltage source connected to said wall and to said central electrode to establish a voltage difference therebetween. claim 1 3. A device as recited in  claim 1  wherein said means for generating a radially oriented electric field in said chamber comprises a plurality of ring electrodes positioned in said chamber near one of said ends of said wall. claim 1 4. A device as recited in  claim 1  wherein said means for generating a radially oriented electric field in said chamber comprises a voltage source connected to said wall and to said central electrode to establish a voltage difference therebetween, and a plurality of ring electrodes positioned in said chamber near one of said ends of said wall. claim 1 5. A device as recited in  claim 1  wherein said means for introducing a working gas into said chamber comprises at least one hole formed in said wall. claim 1 6. A device as recited in  claim 5  wherein said central electrode is formed with a gas-box for accumulation of said working gas and a means for transferring said working gas from said gas-box, outside said wall and then through said hole in said wall to reintroduce said working gas into said chamber. claim 5 7. A device as recited in  claim 6  wherein said transferring means comprises a duct and said device further comprises a control valve for selectively metering said working gas through said duct. claim 6 8. A device as recited in  claim 1  wherein said central electrode is formed with an outer surface facing said chamber and said outer surface is textured to minimize the loss of central electrode material from sputtering of the central electrode. claim 1 9. A device as recited in  claim 1  wherein said central electrode is formed with an outer surface facing said chamber and said outer surface is formed with projections extending radially therefrom to minimize the loss of central electrode material from sputtering of the central electrode. claim 1 10. A device as recited in  claim 9  wherein said projections are substantially disk shaped. claim 9 11. A device as recited in  claim 1  wherein tiles are formed of said chemical mixture and said tiles are mounted on said wall. claim 1 12. A device as recited in  claim 1  wherein said wall is made of said chemical mixture. claim 1 13. A device for sputtering and ionizing a chemical mixture and separating ions of said chemical mixture according to their mass to charge ratio, said device comprising: a wall surrounding a volume and formed with an opening, wherein said chemical mixture is mounted on said wall for exposure to said volume;  a central electrode positioned in said volume and distanced from said wall;  a means for introducing a working gas into said volume;  a means for generating a magnetic field in said volume; and  a means for generating an electric field in said volume directed inwardly from said wall to said central electrode, said magnetic and electric fields being configured to cause a portion of said working gas to become fast neutrals that are directed towards the chemical mixture to sputter the chemical mixture into said volume for ionization into ions in said electric and magnetic fields, said electric and magnetic fields being configured to place ions having a mass to charge ratio less than a predetermined mass to charge ratio on trajectories for exit from said volume through said opening, and to place ions having a mass to charge ratio greater than said predetermined mass to charge ratio on trajectories into said central electrode for capture thereon. 14. A device as recited in  claim 13  wherein said means for introducing a working gas into said volume comprises at least one hole formed in said wall and wherein said central electrode is formed with a gas-box for accumulation of said working gas and a means for transferring said working gas from said gas-box, outside said wall, and then back into said volume through said hole in said wall. claim 13 15. A device as recited in  claim 13  wherein said central electrode is formed with an outer surface facing said volume and said outer surface is formed with projections extending from said central electrode to minimize the loss of central electrode material from sputtering of the central electrode. claim 13 16. A method for separating a chemical mixture into constituents, said method comprising: providing a wall that surrounds an elongated chamber, with said chemical mixture mounted on said wall for exposure to said chamber, said wall defining a longitudinal axis and having a first end and a second end, said first end formed with an opening;  generating an axially oriented magnetic field in said chamber;  generating a radially oriented electric field in said chamber;  aligning a central electrode along said axis in said chamber; and  introducing a working gas into said chamber for interaction with said magnetic and electric fields to sputter said chemical mixture, for subsequent ionization of said chemical mixture to ions in said chamber, said electric and magnetic fields configured to confine ions having a mass to charge ratio below a predetermined mass to charge ratio for exit from said chamber through said first end and to direct ions having a mass to charge ratio above said predetermined mass to charge ratio into said central electrode for capture thereon. 17. A method as recited in  claim 16  wherein said working gas comprises the gas of a noble element. claim 16 18. A method as recited in  claim 16  wherein said chemical mixture comprises an alloy of Zirconium and Hafnium. claim 16 19. A method as recited in  claim 18  wherein said working gas comprises Xenon. claim 18