Abstract: An apparatus includes a beam scanner applying, during a non-uniform scanning mode, a plurality of different waveforms generating a scan of an ion beam along a scan direction, wherein a given waveform comprises a plurality of scan segments, wherein a first scan segment comprises a first scan rate and a second scan segment comprises a second scan rate different from the first scan rate; a current detector intercepting the ion beam outside of a substrate region and recording a measured integrated current of the ion beam for a given waveform; and a scan adjustment component coupled to the beam scanner and comprising logic to determine: when a beam width of the ion beam along the scan direction exceeds a threshold; and a plurality of current ratios based on the measured integrated current of the ion beam for at least two different waveforms of the plurality of waveforms.

Abstract: An apparatus includes a beam scanner applying, during a non-uniform scanning mode, a plurality of different waveforms generating a scan of an ion beam along a scan direction, wherein a given waveform comprises a plurality of scan segments, wherein a first scan segment comprises a first scan rate and a second scan segment comprises a second scan rate different from the first scan rate; a current detector intercepting the ion beam outside of a substrate region and recording a measured integrated current of the ion beam for a given waveform; and a scan adjustment component coupled to the beam scanner and comprising logic to determine: when a beam width of the ion beam along the scan direction exceeds a threshold; and a plurality of current ratios based on the measured integrated current of the ion beam for at least two different waveforms of the plurality of waveforms.

Abstract: A system to control an ion beam in an ion implanter includes 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. The system also includes 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 an adjustment component to adjust a height of the ion beam along the first direction when the beam current profile indicates the beam height is below a threshold.

Abstract: A system to control an ion beam in an ion implanter includes 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. The system also includes 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 an adjustment component to adjust a height of the ion beam along the first direction when the beam current profile indicates the beam height is below a threshold.

Abstract: A system to control an ion beam in an ion implanter includes a detector system to detect a plurality of beam current measurements of the ion beam at a first frequency and an analysis component to determine a variation of the ion beam based upon the plurality of beam current measurements, the variation corresponding to a beam current variation of the ion beam at a second frequency different from the first frequency. The system also includes an adjustment component to adjust the ion beam in response to an output of the analysis component to reduce the variation, wherein the analysis component and the adjustment component are configured to dynamically reduce the variation of the ion beam below a threshold value while the ion beam is generated in the ion implanter.

Abstract: An approach for predicting dose repeatability in an ion implantation is described. In one embodiment, an ion source is tuned to generate an ion beam with desired beam current. Beam current measurements are obtained from the tuned ion beam. The dose repeatability is predicted for the ion implantation as a function of the beam current measurements.

Abstract: An ion beam current uniformity monitor, ion implanter and related method are disclosed. In one embodiment, the ion beam current uniformity monitor includes an ion beam current measurer including a plurality of measuring devices for measuring a current of an ion beam at a plurality of locations; and a controller for maintaining ion beam current uniformity based on the ion beam current measurements by the ion beam current measurer.

Abstract: An approach for predicting dose repeatability in an ion implantation is described. In one embodiment, an ion source is tuned to generate an ion beam with desired beam current. Beam current measurements are obtained from the tuned ion beam. The dose repeatability is predicted for the ion implantation as a function of the beam current measurements.

Abstract: An ion beam current uniformity monitor, ion implanter and related method are disclosed. In one embodiment, the ion beam current uniformity monitor includes an ion beam current measurer including a plurality of measuring devices for measuring a current of an ion beam at a plurality of locations; and a controller for maintaining ion beam current uniformity based on the ion beam current measurements by the ion beam current measurer.