Claims
- 1. An apparatus utilizing a gas cluster ion beam for processing a surface of a workpiece, the apparatus comprising:
a vacuum vessel; a gas cluster ion beam source within the vacuum vessel for producing a gas cluster ion beam having a beam current; an accelerator for accelerating the gas cluster ion beam along a trajectory; current measurement means disposed along said trajectory for measuring said beam current; workpiece holding means for holding the workpiece for gas cluster ion beam processing; controllable moving means for selectively scanning said workpiece holding means and the workpiece through said gas cluster ion beam at a location along said trajectory, between said accelerator and said current measurement means, and for selectively removing the workpiece holding means and the workpiece from said gas cluster ion beam trajectory; and control means for providing signals to said controllable moving means for scanning the workpiece and for removing the workpiece and workpiece holder from said gas cluster ion beam trajectory to allow measurement of said beam current.
- 2. The apparatus of claim 1, wherein the current measurement means provides at least one beam current measurement signal to said control means, said at least one beam current measurement signal representing a sample of said gas cluster ion beam current measured while the workpiece and said workpiece holder are removed from said gas cluster ion beam trajectory.
- 3. The apparatus of claim 2, wherein said control means uses the at least one beam current measurement signal representing a sample of said gas cluster ion beam current to control the scanning of the workpiece.
- 4. The apparatus of claim 2, wherein said control means uses the at least one beam current measurement signal representing a sample of said gas cluster ion beam current to control a dosage of said gas cluster ion beam applied to the workpiece during processing.
- 5. The apparatus of claim 1, further comprising a controllable neutralizer for providing electrons to reduce space charge in said gas cluster ion beam and/or to reduce electrical charging of the workpiece.
- 6. The apparatus of claim 5, wherein said current measurement means has two controllable modes, one of said modes selectively measuring a sample of the gas cluster ion beam current and another of said modes selectively measuring a sample of total current available for charging the workpiece, and wherein said control means further provides control signals for selecting between the two modes.
- 7. The apparatus of claim 6, wherein said control means measures at least one sample of said total current available and uses said at least one measured sample of total current available to control said controllable neutralizer to reduce the total current available for said electrical charging of the workpiece to a predetermined safe level for processing.
- 8. The apparatus of 6, wherein said control means measures at least one sample of said total current available and uses said at least one measured sample of total current available to prevent processing of the workpiece if said total current exceeds a predetermined safe level for said processing.
- 9. The apparatus of claim 7, wherein said control means further measures at least one sample of said gas cluster ion beam current and uses the measurement of the at least one sample of said gas cluster ion beam current to control the scanning of the workpiece and/or to control a dosage of said gas cluster ion beam applied to the workpiece.
- 10. A method of processing the surface of a workpiece using a gas cluster ion beam comprising the steps of:
forming a gas cluster ion beam within a vacuum vessel, said gas cluster ion beam having a gas cluster ion beam current; accelerating said gas cluster ion beam along a trajectory; controllably holding the workpiece for gas cluster ion beam processing out of the trajectory of said gas cluster ion beam; measuring, at least once, a sample of the gas cluster ion beam current; moving, at least once, the workpiece into the trajectory of said gas cluster ion beam for processing; and using said at least one measurement of a sample of the gas cluster ion beam current to control a dosage of said gas cluster ion beam applied to the workpiece during said processing.
- 11. A method of processing the surface of a workpiece using a gas cluster ion beam comprising the steps of:
forming a gas cluster ion beam within a vacuum vessel, said gas cluster ion beam having a gas cluster ion beam current; accelerating said gas cluster ion beam along a trajectory; controllably holding the workpiece for gas cluster ion beam processing out of the trajectory of said gas cluster ion beam; measuring a sample of total current available for workpiece charging; using said sample of said total current available as a basis for reducing said total current available for workpiece charging to a predetermined safe level; and moving the workpiece into the trajectory of said gas cluster ion beam for processing.
- 12. A method of processing the surface of a workpiece using a gas cluster ion beam comprising the steps of:
forming a gas cluster ion beam within a vacuum vessel, said gas cluster ion beam having a gas cluster ion beam current; accelerating said gas cluster ion beam along a trajectory; controllably holding the workpiece for gas cluster ion beam processing out of the trajectory of said gas cluster ion beam; measuring a sample of total current available for workpiece charging; using said sample of said total current available as a basis for reducing said total current available for workpiece charging to a predetermined safe level; measuring, at least once, a sample of the gas cluster ion beam current; moving, at least once, the workpiece into the trajectory of said gas cluster ion beam for processing; and using said at least one measurement of a sample of the gas cluster ion beam current to control a dosage of said gas cluster ion beam applied to the workpiece during processing.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This applications claims priority of U.S. Provisional Application S.N. 60/258,280 filed Dec. 26, 2000, entitled CHARGING CONTROL AND DOSIMETRY SYSTEM FOR GAS CLUSTER ION BEAM which incorporated herein by reference.
Provisional Applications (1)
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Number |
Date |
Country |
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60258280 |
Dec 2000 |
US |