Patent application number | Description | Published |
20090321657 | SYSTEM AND METHOD OF CONTROLLING BROAD BEAM UNIFORMITY - An ion beam uniformity control system, wherein the uniformity control system comprising a differential pumping chamber that encloses an array of individually controlled gas jets, wherein the gas pressure of the individually controlled gas jets are powered by a controller to change the fraction of charge exchanged ions, and wherein the charge exchange reactions between the gas and ions change the fraction of the ions with original charge state of a broad ion beam, wherein the charge exchanged portion of the broad ion beam is removed utilizing an deflector that generates a magnetic field, a Faraday cup profiler for measuring the broad ion beam profile; and adjusting the individually controlled gas jets based upon feedback provided to the controller to obtain the desired broad ion beam. | 12-31-2009 |
20100155623 | ION IMPLANTATION WITH DIMINISHED SCANNING FIELD EFFECTS - Ion implantation systems and scanning systems are provided, in which a focus adjustment component is provided to adjust a focal property of an ion beam to diminish zero field effects of the scanner upon the ion beam. The focal property may be adjusted in order to improve the consistency of the beam profile scanned across the workpiece, or to improve the consistency of the ion implantation across the workpiece. Methods are disclosed for providing a scanned ion beam to a workpiece, comprising scanning the ion beam to produce a scanned ion beam, adjusting a focal property of an ion beam in relation to zero field effects of the scanner upon the ion beam, and directing the ion beam toward the workpiece. | 06-24-2010 |
20110272567 | Throughput Enhancement for Scanned Beam Ion Implanters - Some aspects of the present disclosure increase throughput beyond what has previously been achievable by changing the scan rate of a scanned ion beam before the entire cross-sectional area of the ion beam extends beyond an edge of a workpiece. In this manner, the techniques disclosed herein help provide greater throughput than what has previously been achievable. In addition, some embodiments can utilize a rectangular (or other non-circularly shaped) scan pattern that allows real-time beam flux measurements to be taken off-wafer during actual implantation. In these embodiments, the workpiece implantation routine can be changed in real-time to account for real-time changes in beam flux. In this manner, the techniques disclosed herein help provide improved throughput and more accurate dosing profiles for workpieces than previously achievable. | 11-10-2011 |
20120248324 | Method and Apparatus for Improved Uniformity Control with Dynamic Beam Shaping - The present invention relates to a method and apparatus for varying the cross-sectional shape of an ion beam, as the ion beam is scanned over the surface of a workpiece, to generate a time-averaged ion beam having an improved ion beam current profile uniformity. In one embodiment, the cross-sectional shape of an ion beam is varied as the ion beam moves across the surface of the workpiece. The different cross-sectional shapes of the ion beam respectively have different beam profiles (e.g., having peaks at different locations along the beam profile), so that rapidly changing the cross-sectional shape of the ion beam results in a smoothing of the beam current profile (e.g., reduction of peaks associated with individual beam profiles) that the workpiece is exposed to. The resulting smoothed beam current profile provides for improved uniformity of the beam current and improved workpiece dose uniformity. | 10-04-2012 |
20120248326 | Uniformity of a Scanned Ion Beam - One embodiment relates to an ion implanter. The ion implanter includes an ion source to generate an ion beam, as well as a scanner to scan the ion beam across a surface of a workpiece along a first axis. The ion implanter also includes a deflection filter downstream of the scanner to ditheredly scan the ion beam across the surface of the workpiece along a second axis. | 10-04-2012 |
20130099131 | METHOD AND APPARATUS FOR IMPROVED UNIFORMITY CONTROL WITH DYNAMIC BEAM SHAPING - The present invention relates to a method and apparatus for varying the cross-sectional shape of an ion beam, as the ion beam is scanned over the surface of a workpiece, to generate a time-averaged ion beam having an improved ion beam current profile uniformity. In one embodiment, the cross-sectional shape of an ion beam is varied as the ion beam moves across the surface of the workpiece. The different cross-sectional shapes of the ion beam respectively have different beam profiles (e.g., having peaks at different locations along the beam profile), so that rapidly changing the cross-sectional shape of the ion beam results in a smoothing of the beam current profile (e.g., reduction of peaks associated with individual beam profiles) that the workpiece is exposed to. The resulting smoothed beam current profile provides for improved uniformity of the beam current and improved workpiece dose uniformity. | 04-25-2013 |
20130146760 | SYSTEM AND METHOD FOR ION IMPLANTATION WITH IMPROVED PRODUCTIVITY AND UNIFORMITY - A scanning system including a scanning element, a beam profiler, analysis system, and a ZFE-limiting element, is disclosed. The scanning element is configured to scan an ion beam over an ion beam scan path. The beam profiler measures beam current of the ion beam as it is scanned over the ion beam scan path, and the analysis system analyzes the measured beam current to detect a ZFE condition. The ZFE-limiting element, which is upstream of the beam profiler and is coupled to the analysis system via a feedback path, is configured to selectively apply an electric field to the scanned ion beam based on whether the ZFE condition is detected. The selectively applied electric field induces a change in the scanned beam to limit the ZFE condition. | 06-13-2013 |
20130181139 | BEAM LINE DESIGN TO REDUCE ENERGY CONTAMINATION - Methods and apparatus for reducing energy contamination can be provided to a beam line assembly for ion implantation. Protrusions comprising surface areas and grooves therebetween can face neutral trajectories within a line of sight view from the workpiece within the beam line assembly. The protrusions can alter the course of the neutral trajectories away from the workpiece or cause alternate trajectories for further impacting before hitting a workpiece, and thereby, further reduce energy contamination for more sensitive implants. | 07-18-2013 |