Patents by Inventor Eric A. Armour
Eric A. Armour 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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Publication number: 20230060609Abstract: A wafer carrier assembly as described herein improves thermal control across a top surface thereof to maintain highly controlled deposition locations and thicknesses.Type: ApplicationFiled: August 31, 2021Publication date: March 2, 2023Inventors: Sandeep Krishnan, Bojan Mitrovic, Eric A. Armour, Yuliy Rashkovsky, Robert S. Maxwell, IV, Matthew J. Van Doren
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Patent number: 10364509Abstract: In a rotating disk reactor for growing epitaxial layers on substrate or other CVD reactor system, gas directed toward the substrates at gas inlets at different radial distances from the axis of rotation of the disk has both substantially the same gas flow rate/velocity and substantially the same gas density at each inlet. The gas directed toward portions of the disk remote from the axis may include a higher concentration of a reactant gas than the gas directed toward portions of the disk close to the axis, so that portions of the substrate surfaces at different distances from the axis receive substantially the same amount of reactant gas per unit area, and a combination of carrier gases with different relative molecular weights at different radial distances from the axis of rotation are employed to substantially make equal the gas density in each region of the reactor.Type: GrantFiled: April 24, 2018Date of Patent: July 30, 2019Assignee: Veeco Instruments Inc.Inventors: Michael Murphy, Richard Hoffman, Jonathan Cruel, Lev Kadinski, Jeffrey C. Ramer, Eric A. Armour
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Patent number: 10167554Abstract: Apparatus for treating wafers using a wafer carrier rotated about an axis is provided with a ring which surrounds the wafer carrier during operation. Treatment gasses directed onto a top surface of the carrier flow outwardly away from the axis over the carrier and over the ring, and pass downstream outside of the ring. The outwardly flowing gasses form a boundary over the carrier and ring. The ring helps to maintain a boundary layer of substantially uniform thickness over the carrier, which promotes uniform treatment of the wafers.Type: GrantFiled: December 21, 2011Date of Patent: January 1, 2019Assignee: Veeco Instruments Inc.Inventors: Bojan Mitrovic, Guanghua Wei, Eric A. Armour, Ajit Paranjpe
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Publication number: 20180237943Abstract: In a rotating disk reactor for growing epitaxial layers on substrate or other CVD reactor system, gas directed toward the substrates at gas inlets at different radial distances from the axis of rotation of the disk has both substantially the same gas flow rate/velocity and substantially the same gas density at each inlet. The gas directed toward portions of the disk remote from the axis may include a higher concentration of a reactant gas than the gas directed toward portions of the disk close to the axis, so that portions of the substrate surfaces at different distances from the axis receive substantially the same amount of reactant gas per unit area, and a combination of carrier gases with different relative molecular weights at different radial distances from the axis of rotation are employed to substantially make equal the gas density in each region of the reactor.Type: ApplicationFiled: April 24, 2018Publication date: August 23, 2018Inventors: Michael Murphy, Richard Hoffman, Jonathan Cruel, Lev Kadinski, Jeffrey C. Ramer, Eric A. Armour
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Publication number: 20180230596Abstract: Apparatus for treating wafers using a wafer carrier rotated about an axis is provided with a ring which surrounds the wafer carrier during operation. Treatment gasses directed onto a top surface of the carrier flow outwardly away from the axis over the carrier and over the ring, and pass downstream outside of the ring. The outwardly flowing gasses form a boundary over the carrier and ring. The ring helps to maintain a boundary layer of substantially uniform thickness over the carrier, which promotes uniform treatment of the wafers.Type: ApplicationFiled: April 6, 2018Publication date: August 16, 2018Applicant: Veeco Instruments Inc.Inventors: Bojan Mitrovic, Guanghua Wei, Eric A. Armour, Ajit Paranjpe
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Patent number: 9982362Abstract: In a rotating disk reactor for growing epitaxial layers on substrate or other CVD reactor system, gas directed toward the substrates at gas inlets at different radial distances from the axis of rotation of the disk has both substantially the same gas flow rate/velocity and substantially the same gas density at each inlet. The gas directed toward portions of the disk remote from the axis may include a higher concentration of a reactant gas than the gas directed toward portions of the disk close to the axis, so that portions of the substrate surfaces at different distances from the axis receive substantially the same amount of reactant gas per unit area, and a combination of carrier gases with different relative molecular weights at different radial distances from the axis of rotation are employed to substantially make equal the gas density in each region of the reactor.Type: GrantFiled: February 10, 2015Date of Patent: May 29, 2018Assignee: Veeco Instruments Inc.Inventors: Bojan Mitrovic, Alexander I. Gurary, William E. Quinn, Eric A. Armour
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Patent number: 9938621Abstract: Methods are provided for treating wafers using a wafer carrier rotated about an axis. The wafer carrier is provided with a ring which surrounds the wafer carrier during operation. Treatment gasses directed onto a top surface of the carrier flow outwardly away from the axis over the carrier and over the ring, and pass downstream outside of the ring. The outwardly flowing gasses form a boundary over the carrier and ring. The ring helps to maintain a boundary layer of substantially uniform thickness over the carrier, which promotes uniform treatment of the wafers.Type: GrantFiled: May 11, 2016Date of Patent: April 10, 2018Assignee: Veeco Instruments Inc.Inventors: Bojan Mitrovic, Guanghua Wei, Eric A. Armour, Ajit Paranjpe
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Patent number: 9653340Abstract: An apparatus includes a carrier rotatable about an axis of rotation where the carrier has a top surface adapted to hold at least one semiconductor wafer and a surface characterization tool which is operative to move over a plurality of positions relative to the top surface of the carrier and/or the wafer transverse to the axis of rotation. The surface characterization tool is operative to move over a plurality of positions relative to the top surface of the carrier and/or the wafer transverse to the axis of rotation and is further adapted to produce characterization signals over the plurality of positions on at least a portion of the carrier and/or on at least a portion of said major surface of the wafer as the carrier rotates.Type: GrantFiled: May 30, 2012Date of Patent: May 16, 2017Assignee: Veeco Instruments Inc.Inventors: Vadim Boguslavskiy, Joshua Mangum, Matthew King, Earl Marcelo, Eric A. Armour, Alexander I. Gurary, William E. Quinn, Guray Tas
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Patent number: 9593434Abstract: In a rotating disk reactor (1) for growing epitaxial layers on substrate (3), gas directed toward the substrates at different radial distances from the axis of rotation of the disk has substantially the same velocity. The gas directed toward portions of the disk remote from the axis (10a) may include a higher concentration of a reactant gas (4) than the gas directed toward portions of the disk close to the axis (10d), so that portions of the substrate surfaces at different distances from the axis (14) receive substantially the same amount of reactant gas (4) per unit area. A desirable flow pattern is achieved within the reactor while permitting uniform deposition and growth of epitaxial layers on the substrate.Type: GrantFiled: April 17, 2014Date of Patent: March 14, 2017Assignee: Veeco Instruments Inc.Inventors: Michael Murphy, Richard Hoffman, Jonathan Cruel, Lev Kadinski, Jeffrey C. Ramer, Eric A. Armour
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Publication number: 20160251758Abstract: Apparatus for treating wafers using a wafer carrier rotated about an axis is provided with a ring which surrounds the wafer carrier during operation. Treatment gasses directed onto a top surface of the carrier flow outwardly away from the axis over the carrier and over the ring, and pass downstream outside of the ring. The outwardly flowing gasses form a boundary over the carrier and ring. The ring helps to maintain a boundary layer of substantially uniform thickness over the carrier, which promotes uniform treatment of the wafers.Type: ApplicationFiled: May 11, 2016Publication date: September 1, 2016Inventors: Bojan Mitrovic, Guanghua Wei, Eric A. Armour, Ajit Paranjpe
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Publication number: 20160168710Abstract: A gas injection system for a chemical vapor deposition system includes a gas manifold comprising a plurality of valves where each of the plurality of valves has an input that is coupled to a process gas source and an output for providing process gas. Each of a plurality of gas injectors has an input that is coupled to the output of one of the plurality of valves and an output that is positioned in one of a plurality of zones in a chemical vapor deposition reactor. A controller having a plurality of outputs where each of the plurality of outputs is coupled to a control input of one of the plurality of valves. The controller instructs at least some of the plurality of valves to open at predetermined times to provide a desired gas flow to each of the plurality of zones in the chemical vapor deposition reactor.Type: ApplicationFiled: February 23, 2016Publication date: June 16, 2016Applicant: Veeco Instruments, Inc.Inventors: William E. Quinn, Eric A. Armour
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Publication number: 20160160387Abstract: A linear cluster deposition system includes a plurality of reaction chambers positioned in a linear horizontal arrangement. First and second reactant gas manifolds are coupled to respective process gas input port of each of the reaction chambers. An exhaust gas manifold having a plurality of exhaust gas inputs is coupled to the exhaust gas output port of each of the plurality of reaction chambers. A substrate transport vehicle transports at least one of a substrate and a substrate carrier that supports at least one substrate into and out of substrate transfer ports of each of the reaction chambers. At least one of a flow rate of process gas into the process gas input port of each of the reaction chambers and a pressure in each of the reaction chambers being chosen so that process conditions are substantially the same in at least two of the reaction chambers.Type: ApplicationFiled: January 15, 2016Publication date: June 9, 2016Applicant: Veeco Instruments IncInventors: William E. Quinn, Alexander Gurary, Ajit Paranjpe, Maria D. Ferreira, Roger P. Fremgen, Eric A. Armour
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Patent number: 9303319Abstract: A gas injection system for a chemical vapor deposition system includes a gas manifold comprising a plurality of valves where each of the plurality of valves has an input that is coupled to a process gas source and an output for providing process gas. Each of a plurality of gas injectors has an input that is coupled to the output of one of the plurality of valves and an output that is positioned in one of a plurality of zones in a chemical vapor deposition reactor. A controller having a plurality of outputs where each of the plurality of outputs is coupled to a control input of one of the plurality of valves. The controller instructs at least some of the plurality of valves to open at predetermined times to provide a desired gas flow to each of the plurality of zones in the chemical vapor deposition reactor.Type: GrantFiled: December 17, 2010Date of Patent: April 5, 2016Assignee: Veeco Instruments Inc.Inventors: William E. Quinn, Eric A. Armour
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Patent number: 9273395Abstract: An MOCVD reactor such as a rotating disc reactor (10) is equipped with a gas injector head having diffusers (129) disposed between adjacent gas inlets. The diffusers taper in the downstream direction. The injector head desirably has inlets (117) for a first gas such as a metal alkyl disposed in radial rows which terminate radially inward from the reactor wall to minimize deposition of the reactants on the reactor wall. The injector head desirably also has inlets (125) for a second gas such as ammonia arranged in a field between the rows of first gas inlets, and additionally has a center inlet (135) for the second gas coaxial with the axis of rotation.Type: GrantFiled: November 22, 2010Date of Patent: March 1, 2016Assignee: Veeco Instruments Inc.Inventors: Bojan Mitrovic, Alex Gurary, Eric A. Armour
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Publication number: 20150225875Abstract: In a rotating disk reactor for growing epitaxial layers on substrate or other CVD reactor system, gas directed toward the substrates at gas inlets at different radial distances from the axis of rotation of the disk has both substantially the same gas flow rate/velocity and substantially the same gas density at each inlet. The gas directed toward portions of the disk remote from the axis may include a higher concentration of a reactant gas than the gas directed toward portions of the disk close to the axis, so that portions of the substrate surfaces at different distances from the axis receive substantially the same amount of reactant gas per unit area, and a combination of carrier gases with different relative molecular weights at different radial distances from the axis of rotation are employed to substantially make equal the gas density in each region of the reactor.Type: ApplicationFiled: February 10, 2015Publication date: August 13, 2015Inventors: Bojan Mitrovic, Alexander I. Gurary, William E. Quinn, Eric A. Armour
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Patent number: 8980000Abstract: In a rotating disk reactor for growing epitaxial layers on substrate or other CVD reactor system, gas directed toward the substrates at gas inlets at different radial distances from the axis of rotation of the disk has both substantially the same gas flow rate/velocity and substantially the same gas density at each inlet. The gas directed toward portions of the disk remote from the axis may include a higher concentration of a reactant gas than the gas directed toward portions of the disk close to the axis, so that portions of the substrate surfaces at different distances from the axis receive substantially the same amount of reactant gas per unit area, and a combination of carrier gases with different relative molecular weights at different radial distances from the axis of rotation are employed to substantially make equal the gas density in each region of the reactor.Type: GrantFiled: October 6, 2006Date of Patent: March 17, 2015Assignee: Veeco Instruments Inc.Inventors: Bojan Mitrovic, Alex Gurary, William Quinn, Eric A. Armour
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Patent number: 8958061Abstract: A method for characterizing a surface comprises rotating a carrier about an axis of rotation where the carrier has a top surface adapted to hold at least one semiconductor wafer with a major surface of the wafer extending generally transverse to the axis of rotation. A surface characterization tool is moved over a plurality of positions relative to the top surface of the carrier, where a measurement location over the top surface of the carrier is changed while said top surface of the carrier is heated to a predetermined temperature. Characterization signals over the plurality of positions with the surface characterization tool are produced and contain information about the heated top surface of the carrier, or when semiconductor wafers are held on the carrier, information about the semiconductor wafer can also be obtained.Type: GrantFiled: May 30, 2012Date of Patent: February 17, 2015Assignee: Veeco Instruments Inc.Inventors: Vadim Boguslavskiy, Joshua Mangum, Matthew King, Earl Marcelo, Eric A. Armour, Alexander I. Gurary, William E. Quinn, Guray Tas
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Publication number: 20140318453Abstract: Methods of depositing compound semiconductors onto substrates are disclosed, including directing gaseous reactants into a reaction chamber containing the substrates, selectively supplying energy to one of the gaseous reactants in order to impart sufficient energy to activate that reactant but insufficient to decompose the reactant, and then decomposing the reactant at the surface of the substrate in order to react with the other reactants. The preferred energy source is microwave or infrared radiation, and reactors for carrying out these methods are also disclosed.Type: ApplicationFiled: July 14, 2014Publication date: October 30, 2014Inventors: Joshua Mangum, Eric A. Armour, William E. Quinn
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Patent number: 8815709Abstract: Methods of depositing compound semiconductors onto substrates are disclosed, including directing gaseous reactants into a reaction chamber containing the substrates, selectively supplying energy to one of the gaseous reactants in order to impart sufficient energy to activate that reactant but insufficient to decompose the reactant, and then decomposing the reactant at the surface of the substrate in order to react with the other reactants. The preferred energy source is microwave or infrared radiation, and reactors for carrying out these methods are also disclosed.Type: GrantFiled: October 2, 2009Date of Patent: August 26, 2014Assignee: Veeco Instruments Inc.Inventors: Joshua Mangum, Eric A. Armour, William E. Quinn
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Publication number: 20140224178Abstract: In a rotating disk reactor (1) for growing epitaxial layers on substrate (3), gas directed toward the substrates at different radial distances from the axis of rotation of the disk has substantially the same velocity. The gas directed toward portions of the disk remote from the axis (10a) may include a higher concentration of a reactant gas (4) than the gas directed toward portions of the disk close to the axis (10d), so that portions of the substrate surfaces at different distances from the axis (14) receive substantially the same amount of reactant gas (4) per unit area. A desirable flow pattern is achieved within the reactor while permitting uniform deposition and growth of epitaxial layers on the substrate.Type: ApplicationFiled: April 17, 2014Publication date: August 14, 2014Applicant: Veeco Instruments Inc.Inventors: Michael Murphy, Richard Hoffman, Jonathan Cruel, Lev Kadinski, Jeffrey C. Ramer, Eric A. Armour