Patents by Inventor Neil K Colvin
Neil K Colvin 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: 9984855Abstract: An ion implantation system for improving performance and extending lifetime of an ion source is disclosed. A fluorine-containing dopant gas source is introduced into the ion chamber along with one or more co-gases. The one or more co-gases can include hydrogen or krypton. The co-gases mitigate the effects caused by free fluorine ions in the ion source chamber which lead to ion source failure.Type: GrantFiled: November 17, 2010Date of Patent: May 29, 2018Assignee: Axcelis Technologies, Inc.Inventors: Neil K. Colvin, Tseh-Jen Hsieh
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Patent number: 9978555Abstract: An ion source has an arc chamber having a body defining and interior region. A liner defined an exposure surface of the interior region that is exposed to a plasma generated within the arc chamber. An electrode has a shaft with a first diameter that passes through the body and the liner. The electrode is electrically isolated from the body where the liner is a plate having a first surface with an optional recess having a second surface. A hole is defined through the recess for the shaft to pass through. The hole has a second diameter that is larger than the first diameter, and an annular gap exists between the plate and the shaft. The plate has a lip extending from the second surface toward the first surface that surrounds the hole within the recess and generally prevents particulate contaminants from entering the annular gap.Type: GrantFiled: November 4, 2016Date of Patent: May 22, 2018Assignee: Axcelis Technologies, Inc.Inventors: Neil K. Colvin, Tseh-Jen Hsieh
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Patent number: 9941087Abstract: An ion source has an arc chamber having an arc chamber body. An electrode extends into an interior region of the arc chamber body, and a cathode shield has a body that is cylindrical having an axial hole. The axial hole is configured to pass the electrode therethrough. First and second ends of the body have respective first and second gas conductance limiters. The first gas conductance limiter extends from an outer diameter of the body and has a U-shaped lip. The second gas conductance limiter has a recess for a seal to protect the seal from corrosive gases and maintain an integrity of the seal. A gas source introduces a gas to the arc chamber body. A liner has an opening configured to pass the cathode shield therethrough, where the liner has a recess. A gap is defined between the U-shaped lip and the liner, wherein the U-shaped lip reduces a conductance of gas into the gap and the recess further reduces conductance of gas into the region.Type: GrantFiled: January 19, 2017Date of Patent: April 10, 2018Assignee: Axcells Technologies, Inc.Inventors: Neil K. Colvin, Tseh-Jen Hsieh, Paul b. Silverstein
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Publication number: 20180096828Abstract: An ion source assembly and method is provided for improving ion implantation performance. The ion source assembly has an ion source chamber and a source gas supply provides a molecular carbon source gas such as toluene to the ion source chamber. A source gas flow controller controls a flow of the molecular carbon source gas to the ion source chamber. An excitation source excites the molecular carbon source gas, forming carbon ions and atomic carbon. An extraction electrode extracts the carbon ions from the ion source chamber, forming an ion beam. A hydrogen peroxide co-gas supply provides a predetermined concentration of hydrogen peroxide co-gas to the ion source chamber, and a hydrogen peroxide co-gas flow controller controls a flow of the hydrogen peroxide gas to the ion source chamber. The hydrogen peroxide co-gas decomposes within the ion source chamber and reacts with the atomic carbon from the molecular carbon source gas in the ion source chamber, forming hydrocarbons within the ion source chamber.Type: ApplicationFiled: September 30, 2016Publication date: April 5, 2018Inventors: Neil K. Colvin, Tseh-Jen Hsieh
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Patent number: 9870893Abstract: An optics plate for an ion implantation system, the optics plate comprising a pair of aperture assemblies. Each pair of aperture assemblies respectively comprises a first aperture member, a second aperture member; and an aperture fastener, wherein the aperture fastener fastens the first aperture member to the second aperture member. An aperture tip may be also fastened to the second aperture member. One or more of the first aperture member, second aperture member, aperture tip, and aperture fastener is made of one or more of a refractory metal, tungsten, lanthanated tungsten alloy, yttrium tungsten alloy, and/or graphite and silicon carbide. The aperture assemblies may define an extraction electrode assembly, a ground electrode assembly, or other electrode assembly in the ion implantation system. The aperture fastener may be a screw and a bevel washer. The first aperture member may be operably coupled to a base plate via an aperture assembly fastener.Type: GrantFiled: January 19, 2017Date of Patent: January 16, 2018Assignee: Axcelis Technologies, Inc.Inventors: Neil K Colvin, Tseh-Jen Hsieh, Paul B. Silverstein
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Publication number: 20170362699Abstract: An ion implantation system is provided having an ion source configured to form an ion beam from aluminum iodide. A beamline assembly selectively transports the ion beam to an end station configured to accept the ion beam for implantation of aluminum ions into a workpiece. The ion source has a solid-state material source having aluminum iodide in a solid form. A solid source vaporizer vaporizes the aluminum iodide, defining gaseous aluminum iodide. An arc chamber forms a plasma from the gaseous aluminum iodide, where arc current from a power supply is configured to dissociate aluminum ions from the aluminum iodide. One or more extraction electrodes extract the ion beam from the arc chamber. A water vapor source further introduces water to react residual aluminum iodide to form hydroiodic acid, where the residual aluminum iodide and hydroiodic acid is evacuated from the system.Type: ApplicationFiled: June 20, 2017Publication date: December 21, 2017Inventors: Dennis Elliott Kamenitsa, Richard J. Rzeszut, Fernando M. Silva, Neil K. Colvin
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Publication number: 20170330725Abstract: An ion implantation system is provided having one or more conductive components comprised of one or more of lanthanated tungsten and a refractory metal alloyed with a predetermined percentage of a rare earth metal. The conductive component may be a component of an ion source, such as one or more of a cathode, cathode shield, a repeller, a liner, an aperture plate, an arc chamber body, and a strike plate. The aperture plate may be associated with one or more of an extraction aperture, a suppression aperture and a ground aperture.Type: ApplicationFiled: May 11, 2017Publication date: November 16, 2017Inventors: NEIL K. COLVIN, TSEH-JEN HSIEH, PAUL B. SILVERSTEIN
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Patent number: 9805912Abstract: A system, apparatus and method for increasing ion source lifetime in an ion implanter are provided. Oxidation of the ion source and ion source chamber poisoning resulting from a carbon and oxygen-containing source gas is controlled by utilizing a hydrogen co-gas, which reacts with free oxygen atoms to form hydroxide and water.Type: GrantFiled: November 17, 2010Date of Patent: October 31, 2017Assignee: Axcelis Technologies, Inc.Inventors: Neil K. Colvin, Tseh-Jen Hsieh
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Publication number: 20170287579Abstract: An arc chamber has a liner operably coupled to body. The liner has a second surface recessed from a first surface and a hole having a first diameter. The liner has a liner lip extending upwardly from the second surface toward the first surface that surrounds the hole and has a second diameter. An electrode has a shaft and head. The shaft has a third diameter that is less than the first diameter and passes through the body and hole and is electrically isolated from the liner by an annular gap. The head has a fourth diameter and a third surface having an electrode lip extending downwardly from the third surface toward the second surface. The electrode lip has a fifth diameter that is between the second and fourth diameters. A spacing between the liner lip and electrode lip defines a labyrinth seal and generally prevents contaminants from entering the annular gap. The shaft has an annular groove configured to accept a boron nitride seal.Type: ApplicationFiled: April 3, 2017Publication date: October 5, 2017Inventors: Neil K. Colvin, Tseh-Jen Hsieh, Paul B. Silverstein
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Publication number: 20170207054Abstract: An ion source has an arc chamber having an arc chamber body. An electrode extends into an interior region of the arc chamber body, and a cathode shield has a body that is cylindrical having an axial hole. The axial hole is configured to pass the electrode therethrough. First and second ends of the body have respective first and second gas conductance limiters. The first gas conductance limiter extends from an outer diameter of the body and has a U-shaped lip. The second gas conductance limiter has a recess for a seal to protect the seal from corrosive gases and maintain an integrity of the seal. A gas source introduces a gas to the arc chamber body. A liner has an opening configured to pass the cathode shield therethrough, where the liner has a recess. A gap is defined between the U-shaped lip and the liner, wherein the U-shaped lip reduces a conductance of gas into the gap and the recess further reduces conductance of gas into the region.Type: ApplicationFiled: January 19, 2017Publication date: July 20, 2017Inventors: Neil K. Colvin, Tseh-Jen Hsieh, Paul b. Silverstein
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Publication number: 20170207057Abstract: An optics plate for an ion implantation system, the optics plate comprising a pair of aperture assemblies. Each pair of aperture assemblies respectively comprises a first aperture member, a second aperture member; and an aperture fastener, wherein the aperture fastener fastens the first aperture member to the second aperture member. An aperture tip may be also fastened to the second aperture member. One or more of the first aperture member, second aperture member, aperture tip, and aperture fastener is made of one or more of a refractory metal, tungsten, lanthanated tungsten alloy, yttrium tungsten alloy, and/or graphite and silicon carbide. The aperture assemblies may define an extraction electrode assembly, a ground electrode assembly, or other electrode assembly in the ion implantation system. The aperture fastener may be a screw and a bevel washer. The first aperture member may be operably coupled to a base plate via an aperture assembly fastener.Type: ApplicationFiled: January 19, 2017Publication date: July 20, 2017Inventors: Neil K. Colvin, Tseh-Jen Hsieh, Paul B. Silverstein
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Publication number: 20170133193Abstract: An ion source has an arc chamber having a body defining and interior region. A liner defined an exposure surface of the interior region that is exposed to a plasma generated within the arc chamber. An electrode has a shaft with a first diameter that passes through the body and the liner. The electrode is electrically isolated from the body where the liner is a plate having a first surface with an optional recess having a second surface. A hole is defined through the recess for the shaft to pass through. The hole has a second diameter that is larger than the first diameter, and an annular gap exists between the plate and the shaft. The plate has a lip extending from the second surface toward the first surface that surrounds the hole within the recess and generally prevents particulate contaminants from entering the annular gap.Type: ApplicationFiled: November 4, 2016Publication date: May 11, 2017Inventors: Neil K. Colvin, Tseh-Jen Hsieh
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Patent number: 9006690Abstract: A method is disclosed for reducing particle contamination in an ion implantation system, wherein an ion beam is created via the ion source operating in conjunction with an extraction electrode assembly. A cathode voltage is applied to the ion source for generating ions therein, and a suppression voltage is applied to the extraction assembly for preventing electrons in the ion beam from being drawn into the ion source. The suppression voltage is selectively modulated, thereby inducing a current flow or an arc discharge through the extraction assembly to remove deposits on surfaces thereof to mitigate subsequent contamination of workpieces.Type: GrantFiled: May 3, 2013Date of Patent: April 14, 2015Assignee: Axcelis Technologies, Inc.Inventors: Neil K. Colvin, Jincheng Zhang
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Publication number: 20140326901Abstract: A method is disclosed for reducing particle contamination in an ion implantation system, wherein an ion beam is created via the ion source operating in conjunction with an extraction electrode assembly. A cathode voltage is applied to the ion source for generating ions therein, and a suppression voltage is applied to the extraction assembly for preventing electrons in the ion beam from being drawn into the ion source. The suppression voltage is selectively modulated, thereby inducing a current flow or an arc discharge through the extraction assembly to remove deposits on surfaces thereof to mitigate subsequent contamination of workpieces.Type: ApplicationFiled: May 3, 2013Publication date: November 6, 2014Inventors: NEIL K. COLVIN, Jincheng Zhang
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Publication number: 20140319994Abstract: An exemplary ion source for creating a stream of ions has a chamber body that at least partially bounds an ionization region of the arc chamber. The arc chamber body is used with a hot filament arc chamber housing that either directly or indirectly heats a cathode to sufficient temperature to cause electrons to stream through the ionization region of the arc chamber. Electrically insulating seal element(s) engaging an outer surface of the arc chamber body are provided for impeding material from exiting the chamber interior openings of the arc chamber body. The seal element(s) have a ceramic body that includes an outer wall that abuts the arc chamber body along a circumferential outer lip. The seal also has one or more radially inner channels bounded by one or more inner walls spaced inwardly from the outer wall. The electrically insulating seal element comprises a Boron Nitride (BN) material.Type: ApplicationFiled: April 25, 2013Publication date: October 30, 2014Inventors: Neil K. Colvin, Tseh Jen Hsieh
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Patent number: 8779395Abstract: An ion implantation system for improving performance and extending lifetime of an ion source is disclosed whereby the selection, delivery, optimization and control of the flow rate of a co-gas into an ion source chamber is automatically controlled.Type: GrantFiled: December 1, 2011Date of Patent: July 15, 2014Assignee: Axcelis Technologies, Inc.Inventors: Neil K. Colvin, Tseh-Jen Hsieh
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Patent number: 8604418Abstract: A method is provided for reducing particle contamination in an ion implantation system, wherein an ion implantation system having source, mass analyzer, resolving aperture, decel suppression plate, and end station is provided. An ion beam is formed via the ion source, and a workpiece is transferred between an external environment and the end station for ion implantation thereto. A decel suppression voltage applied to the decel suppression plate is modulated concurrent with the workpiece transfer, therein causing the ion beam to expand and contract, wherein one or more surfaces of the resolving aperture and/or one or more components downstream of the resolving aperture are impacted by the ion beam, therein mitigating subsequent contamination of workpieces from previously deposited material residing on the one or more surfaces. The contamination can be mitigated by removing the previously deposited material or strongly adhering the previously deposited material to the one or more surfaces.Type: GrantFiled: April 6, 2010Date of Patent: December 10, 2013Assignee: Axcelis Technologies, Inc.Inventors: Neil K. Colvin, Jincheng Zhang
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Publication number: 20130140473Abstract: An ion implantation system for improving performance and extending lifetime of an ion source is disclosed whereby the selection, delivery, optimization and control of the flow rate of a co-gas into an ion source chamber is automatically controlled.Type: ApplicationFiled: December 1, 2011Publication date: June 6, 2013Applicant: Axcelis Technologies, Inc.Inventors: Neil K. Colvin, Tseh-Jen Hsieh
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Patent number: 8242469Abstract: An apparatus is provided for reducing particle contamination in an ion implantation system. The apparatus has an enclosure having an entrance, an exit, and at least one louvered side having a plurality of louvers defined therein. A beamline of the ion implantation system passes through the entrance and exit, wherein the plurality of louvers of the at least one louvered side are configured to mechanically filter an edge of an ion beam traveling along the beamline. The enclosure can have two louvered sides and a louvered top, wherein respective widths of the entrance and exit of the enclosure, when measured perpendicular to the beamline, are generally defined by a position of the two louvered sides with respect to one another. One or more of the louvered sides can be adjustably mounted, wherein the width of one or more of the entrance and exit of the enclosure is controllable.Type: GrantFiled: July 13, 2010Date of Patent: August 14, 2012Assignee: Axcelis Technologies, Inc.Inventor: Neil K. Colvin
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Publication number: 20120119113Abstract: An ion implantation system for improving performance and extending lifetime of an ion source is disclosed. A fluorine-containing dopant gas source is introduced into the ion chamber along with one or more co-gases. The one or more co-gases can include hydrogen or krypton. The co-gases mitigate the effects caused by free fluorine ions in the ion source chamber which lead to ion source failure.Type: ApplicationFiled: November 17, 2010Publication date: May 17, 2012Applicant: Axcelis Technologies, Inc.Inventors: Neil K. Colvin, Tseh-Jen Hsieh