Patents by Inventor Alexander S. Perel
Alexander S. Perel has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8071956Abstract: An ion source includes an arc chamber housing defining an arc chamber having an extraction aperture, and a wiper assembly comprising a wiper positioned outside the arc chamber in a parked position and configured to be driven from the parked position to operational positions to clean the extraction aperture. A wiper assembly for an ion source includes a wiper configured to be positioned outside an arc chamber of the ion source when in a parked position and driven from the parked position to operational positions to clean an extraction aperture of the ion source.Type: GrantFiled: March 10, 2010Date of Patent: December 6, 2011Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Craig R. Chaney, Alexander S. Perel, Leo V. Klos
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Publication number: 20110220812Abstract: An ion source includes an arc chamber housing defining an arc chamber having an extraction aperture, and a wiper assembly comprising a wiper positioned outside the arc chamber in a parked position and configured to be driven from the parked position to operational positions to clean the extraction aperture. A wiper assembly for an ion source includes a wiper configured to be positioned outside an arc chamber of the ion source when in a parked position and driven from the parked position to operational positions to clean an extraction aperture of the ion source.Type: ApplicationFiled: March 10, 2010Publication date: September 15, 2011Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Craig R. CHANEY, Alexander S. PEREL, Leo V. KLOS
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Publication number: 20110220144Abstract: An ion source includes an arc chamber housing defining an arc chamber having an extraction aperture, and a wiper. The wiper is positioned within the arc chamber in a parked position and configured to be driven from the parked position to operational positions to clean the extraction aperture. A cleaning sub-assembly for an ion source includes a wiper configured to be positioned within an arc chamber of the ion source when in a parked position and driven from the parked position to operational positions to clean an extraction aperture of the ion source.Type: ApplicationFiled: March 10, 2010Publication date: September 15, 2011Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Craig R. CHANEY, Alexander S. Perel, Neil J. Bassom, Leo V. Klos
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Patent number: 8003959Abstract: In an ion implanter, a Faraday cup is utilized to receive an ion beam generated during ion source cleaning. The detected beam has an associated mass spectrum which indicates when the ion source cleaning process is complete. The mass spectrum results in a signal composed of a cleaning agent and the material comprising the ion source. This signal will rise over time as the ion source chamber is being cleaned and will level-off and remain constant once the deposits are etched away from the source chamber, thereby utilizing existing implant tools to determine endpoint detection during ion source cleaning.Type: GrantFiled: June 26, 2009Date of Patent: August 23, 2011Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Wilhelm P. Platow, Neil J. Bassom, Peter F. Kurunczi, Alexander S. Perel, Craig R. Chaney
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Patent number: 8003957Abstract: To implant a carbon-containing species, a gas containing carbon is ionized in the ion chamber. The ionization of this gas will typically produce a number of ionized species. However, many of these resulting ionized species are not beneficial to the desired implant, as they contain only non-carbon atoms. These species must be eliminated before the implantation, leaving only carbon-based species. However, the current of the desired species may be low, thereby requiring extra energy or time to implant the desired dosage of carbon into a substrate. This can be improved through the use of a second gas. This second gas is used to dilute the primary carbon-containing gas to be ionized in the ion chamber. By incorporating this dilution gas, more of the resulting ionized species are beneficial to the carbon implantation.Type: GrantFiled: February 9, 2009Date of Patent: August 23, 2011Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Craig R. Chaney, Adolph R. Dori, Christopher R. Hatem, Alexander S. Perel
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Publication number: 20110143527Abstract: Herein an improved technique for generating uniform ion beam is disclosed. In one particular exemplary embodiment, the technique may be realized as a method for processing a substrate with an ion implanter comprising an ion source. The method may comprise: introducing dopant into an ion source chamber of the ion source, the dopant may comprise molecules containing boron and hydrogen; introducing diluent into the ion source chamber, the diluent containing halogen; ionizing the dopant and the diluent into molecular ions and halogen containing ions, the molecular ions containing boron and hydrogen; extracting the molecular ions and the halogen containing ions from the ions source chamber; and directing the molecular ions toward the substrate, where the halogen containing ions may improve uniformity of the molecular ions extracted from the ion source and extend the lifetime of the ion source.Type: ApplicationFiled: December 9, 2010Publication date: June 16, 2011Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Wilhelm P. PLATOW, Neil J. Bassom, Peter F. Kurunczi, Alexander S. Perel, Craig R. Chaney
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Publication number: 20100327159Abstract: In an ion implanter, a Faraday cup is utilized to receive an ion beam generated during ion source cleaning. The detected beam has an associated mass spectrum which indicates when the ion source cleaning process is complete. The mass spectrum results in a signal composed of a cleaning agent and the material comprising the ion source. This signal will rise over time as the ion source chamber is being cleaned and will level-off and remain constant once the deposits are etched away from the source chamber, thereby utilizing existing implant tools to determine endpoint detection during ion source cleaning.Type: ApplicationFiled: June 26, 2009Publication date: December 30, 2010Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Wilhelm P. Platow, Neil J. Bassom, Peter F. Kurunczi, Alexander S. Perel, Craig R. Chaney
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Patent number: 7767986Abstract: An electrode assembly for use with an ion source chamber or as part of an ion implanter processing system to provide a uniform ion beam profile. The electrode assembly includes an electrode having an extraction slot with length L aligned with an aperture of the ion source chamber for extracting an ion beam. The electrode includes a plurality of segments partitioned within the length of the extraction slot where each of the segments is configured to be displaced in at least one direction with respect to the ion beam. A plurality of actuators are connected to the plurality of electrode segments for displacing one or more of the segments. By displacing at least one of the plurality of electrode segments, the current density of a portion of the ion beam corresponding to the position of the segment within the extraction slot is modified to provide a uniform current density beam profile associated with the extracted ion beam.Type: GrantFiled: June 20, 2008Date of Patent: August 3, 2010Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Rajesh Dorai, Peter F. Kurunczi, Alexander S. Perel, Wilhelm P. Platow
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Publication number: 20100155619Abstract: In an ion implanter, an inert gas is directed at a cathode assembly near an ion source chamber via a supply tube. The inert gas is provided with a localized directional flow toward the cathode assembly to reduce unwanted concentrations of cleaning or dopant gases introduced into the ion source chamber, thereby reducing the effects of unwanted filament growth in the cathode assembly and extending the manufacturing life of the ion source.Type: ApplicationFiled: December 22, 2008Publication date: June 24, 2010Applicant: Varian Semiconductor Equipment Associates Inc.Inventors: John Bon-Woong Koo, David J. Twiss, Chris Campbell, Frank Sinclair, Alexander S. Perel, Craig R. Chaney, Wilhelm P. Platow, Eric R. Cobb
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Patent number: 7723697Abstract: Techniques for providing optical ion beam metrology are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for controlling beam density profile, the apparatus may include one or more camera systems to capture at least one image of an ion beam and a control system coupled to the one or more camera systems to control a beam density profile of the ion beam. The control system may further include a dose profiler to provide information to one or more ion implantation components in at least one of a feedback loop and a feedforward loop to improve dose and angle uniformity.Type: GrantFiled: September 21, 2007Date of Patent: May 25, 2010Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Alexander S. Perel, Wilhelm Platow, Craig Chaney, Frank Sinclair, Tyler Rockwell
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Publication number: 20100024841Abstract: An ion source and method of cleaning are disclosed. One or more heating units are placed in close proximity to the inner volume of the ion source, so as to affect the temperature within the ion source. In one embodiment, one or more walls of the ion source have recesses into which heating units are inserted. In another embodiment, one or more walls of the ion source are constructed of a conducting circuit and an insulating layer. By utilizing heating units near the ion source, it is possible to develop new methods of cleaning the ion source. Cleaning gas is flowed into the ion source, where it is ionized, either by the cathode, as in normal operating mode, or by the heat generated by the heating units. The cleaning gas is able to remove residue from the walls of the ion source more effectively due to the elevated temperature.Type: ApplicationFiled: July 31, 2009Publication date: February 4, 2010Inventors: Bon-Woong Koo, Christopher R. Campbell, Craig R. Chaney, Robert Lindberg, Wilheim P. Platow, Alexander S. Perel
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Publication number: 20090314962Abstract: An electrode assembly for use with an ion source chamber or as part of an ion implanter processing system to provide a uniform ion beam profile. The electrode assembly includes an electrode having an extraction slot with length L aligned with an aperture of the ion source chamber for extracting an ion beam. The electrode includes a plurality of segments partitioned within the length of the extraction slot where each of the segments is configured to be displaced in at least one direction with respect to the ion beam. A plurality of actuators are connected to the plurality of electrode segments for displacing one or more of the segments. By displacing at least one of the plurality of electrode segments, the current density of a portion of the ion beam corresponding to the position of the segment within the extraction slot is modified to provide a uniform current density beam profile associated with the extracted ion beam.Type: ApplicationFiled: June 20, 2008Publication date: December 24, 2009Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Rajesh DORAI, Peter F. Kurunczi, Alexander S. Perel, Wilhelm P. Platow
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Patent number: 7598495Abstract: A focusing particle trap system for ion implantation comprising an ion beam source that generates an ion beam, a beam line assembly that receives the ion beam from the ion beam source comprising a mass analyzer that selectively passes selected ions, a focusing electrostatic particle trap that receives the ion beam and removes particles from the ion beam comprising an entrance electrode comprising an entrance aperture and biased to a first base voltage, wherein the first surface of the entrance electrode is facing away from a center electrode and is approximately flat, wherein the second surface of the entrance electrode is facing toward the center electrode and is concave, wherein the center electrode is positioned a distance downstream from the entrance electrode comprising a center aperture and biased to a center voltage, wherein the center voltage is less than the first base voltage, wherein the first surface of the center electrode is facing toward the entrance electrode and is convex, wherein the secondType: GrantFiled: April 25, 2007Date of Patent: October 6, 2009Assignee: Axcelis Technologies, Inc.Inventors: Peter L. Kellerman, Victor M. Benveniste, Alexander S. Perel, Brian S. Freer, Michael A. Graf
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Publication number: 20090242793Abstract: Liner elements to protect the ion source housing and also increase the power efficiency of the ion source are disclosed. Two liner elements, preferably constructed from tungsten, are inserted into the ion source chamber, one placed against each of the two sidewalls. These inserts are electrically biased so as to induce an electrical field that is perpendicular to the applied magnetic field. Such an arrangement has been unexpectedly found to increase the life of not only the ion chamber housing, but also the indirectly heated cathode (IHC) and the repeller. In addition, the use of these biased liner elements also improved the power efficiency of the ion source; allowing more ions to be generated at a given power level, or an equal number of ions to be generated at a lower power level.Type: ApplicationFiled: March 31, 2008Publication date: October 1, 2009Inventors: Russell J. Low, Jay T. Scheuer, Alexander S. Perel, Craig R. Chaney, Neil J. Bassom
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Patent number: 7586109Abstract: A technique improving the performance and extending the lifetime of an ion source with gas dilution is disclosed. In one particular exemplary embodiment, the technique may be realized as a method for improving performance and extending lifetime of an ion source in an ion implanter with gas dilution. The method may comprise releasing a predetermined amount of dopant gas into an ion source chamber, and releasing a predetermined amount of dilutant gas into the ion source chamber. The dilutant gas may comprise a mixture of a xenon-containing gas and a hydrogen-containing gas for diluting the dopant gas to improve the performance and extend the lifetime of the ion source.Type: GrantFiled: March 13, 2007Date of Patent: September 8, 2009Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Alexander S Perel, Craig R Chaney
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Publication number: 20090200460Abstract: To implant a carbon-containing species, a gas containing carbon is ionized in the ion chamber. The ionization of this gas will typically produce a number of ionized species. However, many of these resulting ionized species are not beneficial to the desired implant, as they contain only non-carbon atoms. These species must be eliminated before the implantation, leaving only carbon-based species. However, the current of the desired species may be low, thereby requiring extra energy or time to implant the desired dosage of carbon into a substrate. This can be improved through the use of a second gas. This second gas is used to dilute the primary carbon-containing gas to be ionized in the ion chamber. By incorporating this dilution gas, more of the resulting ionized species are beneficial to the carbon implantation.Type: ApplicationFiled: February 9, 2009Publication date: August 13, 2009Inventors: Craig R. Chaney, Adolph R. Dori, Christopher R. Hatem, Alexander S. Perel
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Publication number: 20090078883Abstract: Techniques for providing optical ion beam metrology are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for controlling beam density profile, the apparatus may include one or more camera systems to capture at least one image of an ion beam and a control system coupled to the one or more camera systems to control a beam density profile of the ion beam. The control system may further include a dose profiler to provide information to one or more ion implantation components in at least one of a feedback loop and a feedforward loop to improve dose and angle uniformity.Type: ApplicationFiled: September 21, 2007Publication date: March 26, 2009Applicant: Varian Semiconductor Equipment Associates, Inc.Inventors: Alexander S. Perel, Wilhelm Platow, Craig Chaney, Frank Sinclair, Tyler Rockwell
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Patent number: 7459704Abstract: Ion sources and methods for generating molecular ions in a cold operating mode and for generating atomic ions in a hot operating mode are provided. In some embodiments, first and second electron sources are located at opposite ends of an arc chamber. The first electron source is energized in the cold operating mode, and the second electron source is energized in the hot operating mode. In other embodiments, electrons are directed through a hole in a cathode in the cold operating mode and are directed at the cathode in the hot operating mode. In further embodiments, an ion beam generator includes a molecular ion source, an atomic ion source and a switching element to select the output of one of the ion sources.Type: GrantFiled: November 8, 2005Date of Patent: December 2, 2008Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Joseph C. Olson, Anthony Renau, Donna L. Smatlak, Kurt Deckerlucke, Paul Murphy, Alexander S. Perel, Russell J. Low, Peter Kurunczi
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Patent number: 7435977Abstract: Angle of incidence measurements along an axis of ion implantation are obtained by employing positive and negative slot structures. The positive slot structures have entrance openings, exit openings, and slot profiles there between that obtain portion(s) of an ion beam having a selected range of angles in a positive direction. The negative slot structures have entrance openings, exit openings, and slot profiles there between that obtain portion(s) of the ion beam having the selected range of angles in a negative direction. A first beam measurement mechanism measures beam current of the positive portion to obtain a positive angle beam current measurement. A second beam measurement mechanism measures beam current of the negative portion to obtain a negative angle beam current measurement. An analyzer component employs the positive angle beam current measurement and the negative angle beam current measurement to determine a measured angle of incidence.Type: GrantFiled: December 12, 2005Date of Patent: October 14, 2008Assignee: Axcelis Technologies, Inc.Inventors: Brian S. Freer, Alexander S. Perel
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Patent number: 7423277Abstract: An image monitor system monitors characteristics of an ion beam employed in ion implantation. The monitored characteristics can include particle count, particle information, beam current intensity, beam shape, and the like. The system includes one or more image sensors that capture frames or images along a beam path of an ion beam. An image analyzer analyzes the captured frames to obtain measured characteristics. A controller determines adjustments or corrections according to the measured characteristics and desired beam characteristics.Type: GrantFiled: March 14, 2006Date of Patent: September 9, 2008Assignee: Axcelis Technologies, Inc.Inventors: Alexander S. Perel, Phil J. Ring, Ronald A. Capodilupo, Michael A. Graf