Patent Number: 
Section: claims

1. A system to control an ion beam in an ion implanter, comprising:a detector to perform a plurality of beam current measurements of the ion beam along a first direction perpendicular to a direction of propagation of the ion beam;an analysis component to determine a beam current profile based upon the plurality of beam current measurements, the beam current profile comprising a variation of beam current along the first direction, and to calculate a slope of the beam current profile and a beam height along a first direction based upon the beam current profile; andan adjustment component to adjust the beam height of the ion beam along the first direction when the beam current profile indicates the beam height is below a threshold, and to defocus the ion beam when a hotspot is determined. 2. The system of claim 1, wherein the detector comprises a multipixel detector that is configured to simultaneously record the plurality of beam current measurements for a respective plurality of different points along the first direction. 3. The system of claim 1, wherein the analysis component is configured to determine if a slope of the beam current profile exceeds a slope threshold indicative of an excessive beam current density. 4. The system of claim 3, wherein the analysis component is configured to terminate an ion implantation process when the presence of the hotspot is determined after a predetermined number of beam adjustment loops, wherein each beam adjustment loop comprises determining that beam height is below a beam height threshold and sending a signal to adjust a parameter of the ion implanter based upon the determined beam height. 5. The system of claim 1, further comprising a substrate scanner to scan a substrate along the first direction while exposed to the ion beam, wherein the analysis component is configured to determine the threshold based upon a scan speed and a step height of the substrate scanner. 6. An ion implanter, comprising:an ion source to generate an ion beam;a detector to perform a plurality of ion beam current measurements of the ion beam along a first direction perpendicular to a direction of propagation of the ion beam;a controller including at least one computer-readable storage medium comprising instructions that, when executed, cause the controller to:determine a beam current profile based upon the plurality of ion beam current measurements, the beam current profile comprising a variation of ion beam current along the first direction;calculate a beam height along the first direction based upon the beam current profile; andsend instructions to perform a parameter adjustment to increase the ion beam height along the first direction when the calculated beam height is below a threshold, and to defocus the ion beam when a hotspot is determined. 7. The ion implanter of claim 6, wherein the detector comprises a multipixel detector that is configured to simultaneously record a plurality of beam current measurements for a respective plurality of different points along the first direction. 8. The ion implanter of claim 6, wherein the at least one computer-readable storage medium comprising instructions that, when executed, cause the controller to determine the presence of the hotspot in the ion beam based upon the beam current profile. 9. The ion implanter of claim 8, wherein the at least one computer-readable storage medium comprising instructions that, when executed, cause the controller to terminate an ion implantation process when the presence of the hotspot is determined after a predetermined number of beam adjustment loops, wherein each beam adjustment loop comprises determining that beam height is below a beam height threshold and sending a signal to adjust a parameter of the ion implanter based upon the determined beam height. 10. The ion implanter of claim 8, further comprising a substrate scanner to scan a substrate along the first direction while exposed to the ion beam, the at least one computer-readable storage medium comprising instructions that, when executed, cause the controller to determine the threshold based upon scan speed and step height of the substrate scanner. 11. An ion implanter, comprising:a detector to perform a plurality of ion beam current measurements of the ion beam along a first direction perpendicular to a direction of propagation of the ion beam;a controller including at least one computer-readable storage medium comprising instructions that, when executed, cause the controller to:determine a beam current profile based upon the plurality of ion beam current measurements, the beam current profile comprising a variation of ion beam current along the first direction;calculate an ion current gradient comprising change in ion current as a function of position along the first direction based upon the beam current profile; andsend instructions to perform a beam adjustment comprising dynamically adjusting a parameter of the ion implantation apparatus when the ion current gradient is above a threshold, wherein the dynamically adjusting comprises defocusing the ion beam when the ion current gradient is above a threshold. 12. The ion implanter of claim 11, wherein the detector comprising a multipixel detector that is configured to simultaneously record a plurality of beam current measurements for a respective plurality of different points along the first direction. 13. The ion implanter of claim 11, wherein the at least one computer-readable storage medium comprising instructions that, when executed, cause the controller to terminate an ion implantation process when the ion current gradient is above a threshold after a predetermined number of beam adjustment loops, wherein each beam adjustment loop comprises determining the ion current gradient is above a threshold and sending a signal to adjust a parameter of the ion implanter based upon the determined beam height. 14. The ion implanter of claim 11, further comprising a substrate scanner to scan a substrate along the first direction while exposed to the ion beam.