Patent Number: 046510036
Section: claims

1. A particle-accelerating anode for use in a beam generating system having a cathode which emits an electron beam towards the particle-accelerating anode and wherein the cathode is housed in a container having a vacuum, comprising: a Faraday cage structure having entry bore at a side facing  a vacuum chamber housing a cathode and having an anode positioned at an exit therefrom and in a beam path of a beam generated by the cathode;  said anode comprising a Faraday cage having an entry bore at an input and a diaphragm positioned in the beam path and in alignment with the entry bore; and  the Faraday cage forming said anode having an exit, and between the entry bore and the exit a beam blanking means being provided within the Faraday cage. 2. A particle-accelerating anode according to claim 1 wherein said sealing means comprises a pin diaphragm. 3. A particle-accelerating anode according to claim 1 wherein the sealing means is provided at an end of said bore adjacent the blanking means and at an end of the bore which is opposite the end of the bore facing the cathode. 4. A particle-accelerating anode according to claim 1 wherein an aperture of the sealing meanshas a dimension of less than 500 .mu.m. 5. A particle-accelerating anode according to claim 4 wherein an aperture of the sealing means has a dimension of approximately 300 .mu.m. 6. A particle-accelerating anode according to claim 1 wherein said further sealing means for vacuum sealing is positioned at a beam output end of said particle-accelerating anode such that the blanking means lies between the sealing means and further sealing means. 7. A particle-accelerating anode according to claim 6 wherein said further sealing means has a diaphragm aperture of less than 2 mm. 8. A particle-accelerating anode according to claim 7 wherein said further sealing means has a diaphragm aperture of from 500 .mu.m to 1 mm. 9. A particle-accelerating anode according to claim 1 wherein a connecting piece means for vacuum sealing and for adjustment of said particle-accelerating anode is provided at a beam output end thereof. 10. A particle-accelerating anode according to claim 9 wherein a further ring whose dimension is adaptable to various openings to vacuum walls is disposed on said connecting pieces means. 11. A particle-accelerating anode according to claim 1 wherein said blanking means comprises blanking deflection plates. 12. A beam generating system, comprising: 13. A beam generating system according to claim 12 wherein a Wehnelt electrode is provide in the vacuum chamber and the diaphragm is positioned at an end of said entry bore adjacent the blanking means. 14. A beam generating system according to claim 12 wherein the blanking means comprises a delfection plates, the diaphragm is positioned at an end of the bore adjacent the blanking means, and a further diaphragm is positioned at the exit of the Faraday cage.