Claims
- 1. An ion buncher for grouping ions along a path between an entrance end and an accelerating module in an ion accelerator system, the buncher comprising:a first grounded electrode with an elongated slit aperture, forming an entrance aperture for an ion beam with an elongated slit shaped transverse profile; a second grounded electrode, with either a slit aperture or circular aperture, located along the ion beam path toward the accelerating module; and an energizable electrode with an elongated slit aperture located between the first and second grounded electrodes and defining gaps therebetween, and operatively associated with an energy source and adapted to create a modulating electric field in the gaps between the energizable electrode and the first and second grounded electrodes, respectively, to provide bunched ions to the accelerating module.
- 2. The ion buncher of claim 1, wherein the slit aperture associated with the energizable electrode comprises an aspect ratio of between about 2 and about 10.
- 3. The ion buncher of claim 1, wherein the slit aperture associated with the energizable electrode comprises a transverse height of approximately 25 mm and a transverse width of approximately 4 mm.
- 4. The ion buncher of claim 1, wherein the gaps have different lengths.
- 5. The ion buncher of claim 4, wherein one of the gaps is adjustable.
- 6. The ion buncher of claim 4, wherein the energizable electrode energy source is independently adjustable to vary at least one of the frequency, phase, and field strength associated with the modulating electric field in the portion of the path.
- 7. The ion buncher of claim 1, wherein the gaps are selected such that one of the gaps comprises a distance sufficiently small such that the modulating electric field therein is generally uniform during a time in which an ion travels therethrough.
- 8. The ion buncher of claim 7, wherein the other of the gaps comprises a distance larger than the one gap, such that the modulating electric field therein varies substantially during a time in which the ion travels therethrough.
- 9. The ion buncher of claim 4, wherein the first grounded electrode associated with the ion buncher forms an entrance aperture for the ion accelerator system.
- 10. The ion buncher of claim 9, wherein an orientation of the slit associated with the first grounded electrode and the energizable electrode is the same, thereby facilitating a bunching of ions in the ion beam while the ion beam has an aspect ratio generally corresponding to the slits.
- 11. A linear accelerator system for accelerating ions traveling along a path from an entrance end to an exit end in an ion implantation system, the linear accelerator system comprising:at least one accelerating module having at least one energizable electrode operatively associated with an accelerator energy source and adapted to create a first alternating electric field to accelerate the ions from a first energy to a second energy; and an ion buncher for grouping ions along a path between the entrance end and the at least one accelerating module, the ion buncher comprising: a first grounded electrode with an elongated slit aperture, forming an entrance aperture for an ion beam with an elongated slit shaped transverse profile; a second grounded electrode, with either a slit aperture or circular aperture, located along the ion beam path toward the accelerating module; and an energizable electrode with an elongated slit aperture located between the first and second grounded electrodes and defining gaps therebetween, and operatively associated with an energy source and adapted to create a modulating electric field in the gaps between the elongated slit aperture energizable electrode and the first and second grounded electrodes, respectively, to provide bunched ions to the at least one accelerating module.
- 12. The linear accelerator system of claim 11, wherein the slit aperture associated with the energizable electrode comprises an aspect ratio of between about 2 and about 10.
- 13. The linear accelerator system of claim 11, wherein the slit aperture associated with the energizable electrode comprises a transverse height of approximately 25 mm and a transverse width of approximately 4 mm.
- 14. An ion implanter, comprising:an ion source adapted to direct charged ions having an initial energy along a path; a linear accelerator system having an entrance end and an exit end, comprising: at least one accelerating module having at least one energizable electrode operatively associated with an accelerating energy source and adapted to create a first alternating electric field to accelerate the ions from a first energy to a second energy; and an ion buncher for grouping ions along a path between the entrance end and the at least one accelerating module in the linear accelerator system, the ion buncher comprising: a first grounded electrode with an elongated slit aperture, forming an entrance aperture for an ion beam with an elongated slit shaped transverse profile; a second grounded electrode, with either a slit aperture or circular aperture, located along the ion beam path toward the accelerating module; and an energizable electrode with an elongated slit aperture located between the first and second grounded electrodes and defining gaps therebetween, and operatively associated with an energy source and adapted to create a modulating electric field in the gaps between the energizable electrode and the first and second grounded electrodes, respectively, to provide bunched ions to the accelerating module; an end station adapted to position a workpiece so that charged ions accelerated to the second energy impact the workpiece; and a controller coupled to the energy sources and adapted to control the relative amplitude and phase of the electric fields in the linear accelerator system.
- 15. The ion buncher of claim 14, wherein the gaps are selected such that one of the gaps comprises a distance sufficiently small such that the modulating electric field therein is generally uniform during a time in which an ion travels therethrough.
- 16. The ion buncher of claim 15, wherein the other of the gaps comprises a distance larger than the one gap, such that the modulating electric field therein varies substantially during a time in which the ion travels therethrough.
RELATED APPLICATION
This application claims priority to U.S. Ser. No. 60/314,417 filed Aug. 23, 2001, which is entitled “Slit Double Gap Buncher and Method for Improved Ion Bunching in an Ion Implantation System”, which is incorporated herein by reference in its entirety.
US Referenced Citations (12)
Provisional Applications (1)
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Number |
Date |
Country |
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60/314417 |
Aug 2001 |
US |