Patent Number: 
Section: claims

1. A method of improved cleaning of an ion implantation apparatus claim, comprising:providing said ion implantation apparatus, said ion implantation apparatus comprising:a beam generation chamber connected to an analyzer chamber connected to a pumping chamber connected to a resolving chamber connected to a wafer chamber, said analyzer, pumping and resolving chambers having interior surfaces;an access port in said analyzing chamber, said access port having a corresponding access port cover;when in operation, a charged particle beam generated in said beam generation chamber and passing through said analyzer pumping chamber and said resolving chamber to a semiconductor substrate in said wafer chamber; andan electromagnet having poles positioned within said analyzer chamber and deflecting said charged particle beam onto said substrate;positioning one or more removable liners in contact with one or more different interior surfaces of one or more of said analyzer, pumping and resolving chambers, said liners preventing material generated by interaction of said charged beam and said substrate from coating said one or more different interior surfaces of regions of said analyzer, pumping and resolving chambers;wherein said one or more liners positioned in said analyzer chamber do not cover said poles of said electromagnet when positioned in said analyzer chamber;wherein one or more liners positioned in said analyzer chamber are removeably attached to said access port cover; andplacing a first liner, a second liner, a third liner and a fourth liner in said analyzing chamber, said analyzing chamber having opposite first and second sidewalls connecting opposite top and bottom surfaces, said first liner adjacent to said second aperture and extending along said first sidewall, said second liner adjacent to said second aperture and extending along said second sidewall, said third liner adjacent to said second aperture and extending along said top surface, said fourth liner adjacent to said second aperture and extending along said bottom surface, said third and fourth liners mechanically fastened to first and second liners, said first liner mechanically fastened to an access port cover of said analyzing chamber, said third and fourth liners not covering said first and second pole ends. 2. The method of claim 1, said ion implantation apparatus further including:one or more access ports in said analyzer chamber, said one or more access ports having corresponding access port covers; andwherein each liner positioned in said analyzer chamber is removable through at least one of said one or more access ports after a corresponding access port cover is removed. 3. The method of claim 1, said ion implantation apparatus further including:one or more access ports in said analyzer chamber, said one or more access ports having corresponding access port covers; andwherein each liner positioned in said analyzer chamber is removable through at least one of said one or more access ports after a corresponding access port cover is removed. 4. The method of claim 1, wherein each of said one or more liners has a first surface and an opposite second surface, said first surface in contact with a region of said interior surface of one of said analyzer, pumping and analyzer chambers and said second surface facing said charged particle beam, and wherein said second surfaces of said one or more liners is textured. 5. The method of claim 1, further including:after exposed surfaces of said one or more liners become contaminated with material generated in said ion implantation apparatus, removing contaminated liners from said ion implantation apparatus and replacing said removed liners with corresponding identical uncontaminated liners. 6. The method of claim 5, further including:after said removing contaminated liners, removing said material from said exposed surfaces of said removed liners and repositioning said removed liners in said ion implantation apparatus. 7. The method of claim 1, wherein said one or more removable liners comprise aluminum. 8. The method of claim 1, wherein said one or more removable liners are textured by sand blasting. 9. The method of claim 1, wherein said one or more removable liners are essentially free of iron, nickel, chrome, cobalt, molybdenum, beryllium, tungsten, titanium, tantalum, copper, magnesium, tin, indium, antimony, phosphorous, boron and arsenic. 10. The method of claim 1, wherein said one or more removable liners independently have thicknesses of between about 0.05 inches and about 0.20 inches. 11. A method of improved cleaning of an ion implantation apparatus claim, comprising:providing said ion implantation apparatus, said ion implantation apparatus comprising:a beam generation chamber connected to an analyzer chamber connected to a pumping chamber connected to a resolving chamber connected to a wafer chamber, said analyzer, pumping and resolving chambers having interior surfaces;an access port in said analyzing chamber, said access port having a corresponding access port cover;when in operation, a charged particle beam generated in said beam generation chamber and passing through said analyzer pumping chamber and said resolving chamber to a semiconductor substrate in said wafer chamber; andan electromagnet having poles positioned within said analyzer chamber and deflecting said charged particle beam onto said substrate;positioning one or more removable liners in contact with one or more different interior surfaces of one or more of said analyzer, pumping and resolving chambers, said liners preventing material generated by interaction of said charged beam and said substrate from coating said one or more different interior surfaces of regions of said analyzer, pumping and resolving chambers;wherein said one or more liners positioned in said analyzer chamber do not cover said poles of said electromagnet when positioned in said analyzer chamber;wherein one or more liners positioned in said analyzer chamber are removeably attached to said access port cover; andplacing a first liner, a second liner, a third liner, a fourth liner, a fifth liner and a sixth liner in said pumping chamber, said first liner in the shape of a ring and located adjacent to said second aperture, said second liner comprising in the shape of a ring and located adjacent to said third aperture, said third liner in contact with a bottom surface of said pumping chamber and said fourth liner in contact with a top surface of said pumping chamber, said fifth liner positioned adjacent to a pumping port of said pumping chamber, said sixth liner positioned adjacent to an access port of said pumping chamber, said fifth and sixth liners comprising a curved plate rolled to match a bore of said pumping chamber and compression fitted to a surface of said bore. 12. The method of claim 11, including:one or more access ports in said analyzer chamber, said one or more access ports having corresponding access port covers;wherein each liner positioned in said analyzer chamber is removable through at least one of said one or more access ports after a corresponding access port cover is removed;one or more access ports in said analyzer chamber, said one or more access ports having corresponding access port covers;wherein each liner positioned in said analyzer chamber is removable through at least one of said one or more access ports after a corresponding access port cover is removed;wherein each of said one or more liners has a first surface and an opposite second surface, said first surface in contact with a region of said interior surface of one of said analyzer, pumping and analyzer chambers and said second surface facing said charged particle beam; andwherein said second surfaces of said one or more liners is textured. 13. The method of claim 11; further including:after exposed surfaces of said one or more liners become contaminated with material generated in said ion implantation apparatus, removing contaminated liners from said ion implantation apparatus and replacing said removed liners with corresponding identical uncontaminated liners; orafter said removing contaminated liners, removing said material from said exposed surfaces of said removed liners and repositioning said removed liners in said ion implantation apparatus. 14. The method of claim 1, wherein said one or more removable liners comprise aluminum that is essentially free of iron, nickel, chrome, cobalt, molybdenum, beryllium, tungsten, titanium, tantalum, copper, magnesium, tin, indium, antimony, phosphorous, boron and arsenic. 15. A method of improved cleaning of an ion implantation apparatus claim, comprising:providing said ion implantation apparatus, said ion implantation apparatus comprising:a beam generation chamber connected to an analyzer chamber connected to a pumping chamber connected to a resolving chamber connected to a wafer chamber, said analyzer, pumping and resolving chambers having interior surfaces;an access port in said analyzing chamber, said access port having a corresponding access port cover;when in operation, a charged particle beam generated in said beam generation chamber and passing through said analyzer pumping chamber and said resolving chamber to a semiconductor substrate in said wafer chamber; andan electromagnet having poles positioned within said analyzer chamber and deflecting said charged particle beam onto said substrate;positioning one or more removable liners in contact with one or more different interior surfaces of one or more of said analyzer, pumping and resolving chambers, said liners preventing material generated by interaction of said charged beam and said substrate from coating said one or more different interior surfaces of regions of said analyzer, pumping and resolving chambers;wherein said one or more liners positioned in said analyzer chamber do not cover said poles of said electromagnet when positioned in said analyzer chamber;wherein one or more liners positioned in said analyzer chamber are removeably attached to said access port cover; andplacing a first liner, a second liner and a third liner in said resolving chamber, said first liner adjacent to said third aperture, said second liner positioned in a first region of said resolving chamber and adjacent to said first liner; said third liner positioned in a second region of said resolving chamber and adjacent to said second liner. 16. The method of claim 15, wherein said one or more removable liners comprise aluminum. 17. The method of claim 15, wherein said one or more removable liners are textured by sand blasting. 18. The method of claim 15, wherein said one or more removable liners are essentially free of iron, nickel, chrome, cobalt, molybdenum, beryllium, tungsten, titanium, tantalum, copper, magnesium, tin, indium, antimony, phosphorous, boron and arsenic. 19. The method of claim 15, wherein said one or more removable liners independently have thicknesses of between about 0.05 inches and about 0.20 inches. 20. The method of claim 15, said ion implantation apparatus further including:an access port in said pumping chamber, said access port having a corresponding access port cover; andwherein all liners positioned in said pumping chamber are removable through said access port after said access port cover is removed. 21. The method of claim 15, said ion implantation apparatus further including:one or more access ports in said analyzer chamber, said one or more access ports having corresponding access port covers; andwherein each liner positioned in said analyzer chamber is removable through at least one of said one or more access ports after a corresponding access port cover is removed. 22. The method of claim 15, wherein each of said one or more liners has a first surface and an opposite second surface, said first surface in contact with a region of said interior surface of one of said analyzer, pumping and analyzer chambers and said second surface facing said charged particle beam, and wherein said second surfaces of said one or more liners is textured. 23. The method of claim 15, further including:after exposed surfaces of said one or more liners become contaminated with material generated in said ion implantation apparatus, removing contaminated liners from said ion implantation apparatus and replacing said removed liners with corresponding identical uncontaminated liners. 24. The method of claim 23, further including:after said removing contaminated liners, removing said material from said exposed surfaces of said removed liners and repositioning said removed liners in said ion implantation apparatus.