Patents by Inventor Scott A. Hendrickson
Scott A. Hendrickson 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: 10570517Abstract: Embodiments of the present invention provide apparatus and methods for performing UV treatment and chemical treatment and/or deposition in the same chamber. One embodiment of the present invention provides a processing chamber including a UV transparent gas distribution showerhead disposed above a substrate support located in an inner volume of the processing chamber, a UV transparent window disposed above the UV transparent gas distribution showerhead, and a UV unit disposed outside the inner volume. The UV unit is configured to direct UV lights towards the substrate support through the UV transparent window and the UV transparent gas distribution showerhead.Type: GrantFiled: June 16, 2016Date of Patent: February 25, 2020Assignee: APPLIED MATERIALS, INC.Inventors: Amit Bansal, Dale R. Du Bois, Juan Carlos Rocha-Alvarez, Sanjeev Baluja, Scott A. Hendrickson, Thomas Nowak
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Patent number: 9506145Abstract: A cleaning method for a UV chamber involves providing a first cleaning gas, a second cleaning gas, and a purge gas to one or more openings in the chamber. The first cleaning gas may be an oxygen containing gas, such as ozone, to remove carbon residues. The second cleaning gas may be a remote plasma of NF3 and O2 to remove silicon residues. The UV chamber may have two UV transparent showerheads, which together with a UV window in the chamber lid, define a gas volume proximate the UV window and a distribution volume below the gas volume. A purge gas may be flowed through the gas volume while one or more of the cleaning gases is flowed into the distribution volume to prevent the cleaning gases from impinging on the UV transparent window.Type: GrantFiled: June 13, 2016Date of Patent: November 29, 2016Assignee: APPLIED MATERIALS, INC.Inventors: Sanjeev Baluja, Alexandros T. Demos, Kelvin Chan, Juan Carlos Rocha-Alvarez, Scott A. Hendrickson, Abhijit Kangude, Inna Turevsky, Mahendra Chhabra, Thomas Nowak, Daping Yao, Bo Xie, Daemian Raj
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Publication number: 20160296981Abstract: A cleaning method for a UV chamber involves providing a first cleaning gas, a second cleaning gas, and a purge gas to one or more openings in the chamber. The first cleaning gas may be an oxygen containing gas, such as ozone, to remove carbon residues. The second cleaning gas may be a remote plasma of NF3 and O2 to remove silicon residues. The UV chamber may have two UV transparent showerheads, which together with a UV window in the chamber lid, define a gas volume proximate the UV window and a distribution volume below the gas volume. A purge gas may be flowed through the gas volume while one or more of the cleaning gases is flowed into the distribution volume to prevent the cleaning gases from impinging on the UV transparent window.Type: ApplicationFiled: June 13, 2016Publication date: October 13, 2016Inventors: Sanjeev BALUJA, Alexandros T. DEMOS, Kelvin CHAN, Juan Carlos ROCHA-ALVAREZ, Scott A. HENDRICKSON, Abhijit KANGUDE, Inna TUREVSKY, Mahendra CHHABRA, Thomas NOWAK, Daping YAO, Bo XIE, Daemian RAJ
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Publication number: 20160289838Abstract: Embodiments of the present invention provide apparatus and methods for performing UV treatment and chemical treatment and/or deposition in the same chamber. One embodiment of the present invention provides a processing chamber including a UV transparent gas distribution showerhead disposed above a substrate support located in an inner volume of the processing chamber, a UV transparent window disposed above the UV transparent gas distribution showerhead, and a UV unit disposed outside the inner volume. The UV unit is configured to direct UV lights towards the substrate support through the UV transparent window and the UV transparent gas distribution showerhead.Type: ApplicationFiled: June 16, 2016Publication date: October 6, 2016Inventors: Amit BANSAL, Dale R. DU BOIS, Juan Carlos ROCHA-ALVAREZ, Sanjeev BALUJA, Scott A. HENDRICKSON, Thomas NOWAK
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Patent number: 9364871Abstract: A cleaning method for a UV chamber involves providing a first cleaning gas, a second cleaning gas, and a purge gas to one or more openings in the chamber. The first cleaning gas may be an oxygen containing gas, such as ozone, to remove carbon residues. The second cleaning gas may be a remote plasma of NF3 and O2 to remove silicon residues. The UV chamber may have two UV transparent showerheads, which together with a UV window in the chamber lid, define a gas volume proximate the UV window and a distribution volume below the gas volume. A purge gas may be flowed through the gas volume while one or more of the cleaning gases is flowed into the distribution volume to prevent the cleaning gases from impinging on the UV transparent window.Type: GrantFiled: August 19, 2013Date of Patent: June 14, 2016Assignee: APPLIED MATERIALS, INC.Inventors: Sanjeev Baluja, Alexandros T. Demos, Kelvin Chan, Juan Carlos Rocha-Alvarez, Scott A. Hendrickson, Abhijit Kangude, Inna Turevsky, Mahendra Chhabra, Thomas Nowak, Daping Yao, Bo Xie, Daemian Raj
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Patent number: 8841629Abstract: Devices and methods are provided for monitoring low-level microwave excursions from a UV curing system to determine if equipment is damaged, such as screen tears or improper assembly of UV lampheads. A radio frequency (RF) detector may be used to detect microwaves in a range of about 0.2-5 mW/cm2, wherein the RF detector comprises an antenna with a hoop shaped portion, a circuit board having a diode detector and an amplifier circuit, a housing, and a bracket coupled to the housing that is suitable for coupling the RF detector to the UV curing system. An alarm threshold may also be set, which can be correlated to microwave levels at or below levels that could cause damage to semiconductor devices being processed. A substrate processing system comprising an RF detector is also provided.Type: GrantFiled: June 27, 2012Date of Patent: September 23, 2014Assignee: Applied Materials, Inc.Inventors: Scott A. Hendrickson, Liliya Krivulina, Juan Carlos Rocha, Sanjeev Baluja
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Publication number: 20140264059Abstract: Embodiments of a semiconductor processing chamber described herein include a substrate support, a source of radiant energy opposite the substrate support, a window between the source of radiant energy and the substrate support, a detector sensitive to the radiant energy positioned to detect the radiant energy transmitted by the window, and a detector sensitive to radiation emitted by the substrate positioned to detect radiation emitted by the substrate. The chamber may also include a showerhead. The substrate support may be between the detectors and the window. A second radiant energy source may be included to project energy through the window to a detector. The second radiant energy source may also be located proximate the first radiant energy source and the detectors.Type: ApplicationFiled: February 6, 2014Publication date: September 18, 2014Inventors: Sanjeev BALUJA, Tuan Anh NGUYEN, Abhijit KANGUDE, Bozhi YANG, Amit Kumar BANSAL, Inna TUREVSKY, Scott A. HENDRICKSON, Juan Carlos ROCHA- ALVAREZ, Thomas NOWAK
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Patent number: 8753449Abstract: Embodiments of the invention provide methods for curing an ultra low-k dielectric film within a UV processing chamber. In one embodiment, the method includes depositing an ultra low-k dielectric layer on a substrate in a deposition chamber, and subjecting the deposited ultra low-k dielectric layer to a UV curing processes in a UV processing chamber. The method includes stabilizing the UV processing chamber by flowing an oxygen gas and a purge gas into the UV processing chamber at a flow ratio of about 1:50000 to about 1:100. While flowing the oxygen-doped purge gas, the substrate is exposed to UV radiation to cure the deposited ultra low-k dielectric layer. The inventive oxygen-doped purge curing process provides an alternate pathway to build silicon-oxygen network of the ultra low-k dielectric material, thereby accelerating cross-linking efficiency without significantly affecting the film properties of the deposited ultra low-k dielectric material.Type: GrantFiled: May 29, 2013Date of Patent: June 17, 2014Assignee: Applied Materials, Inc.Inventors: Mahendra Chhabra, Scott A. Hendrickson, Sanjeev Baluja, Tsutomu Kiyohara, Juan Carlos Rocha-Alvarez, Alexandros T. Demos
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Publication number: 20140053866Abstract: A cleaning method for a UV chamber involves providing a first cleaning gas, a second cleaning gas, and a purge gas to one or more openings in the chamber. The first cleaning gas may be an oxygen containing gas, such as ozone, to remove carbon residues. The second cleaning gas may be a remote plasma of NF3 and O2 to remove silicon residues. The UV chamber may have two UV transparent showerheads, which together with a UV window in the chamber lid, define a gas volume proximate the UV window and a distribution volume below the gas volume. A purge gas may be flowed through the gas volume while one or more of the cleaning gases is flowed into the distribution volume to prevent the cleaning gases from impinging on the UV transparent window.Type: ApplicationFiled: August 19, 2013Publication date: February 27, 2014Applicant: APPLIED MATERIALS, INC.Inventors: Sanjeev BALUJA, Alexandros T. DEMOS, Kelvin CHAN, Juan Carlos ROCHA-ALVAREZ, Scott A. HENDRICKSON, Abhijit KANGUDE, Inna TUREVSKY, Mahendra CHHABRA, Thomas NOWAK, Daping YAO, Bo XIE, Daemian RAJ
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Patent number: 8657961Abstract: Embodiments of the invention generally provide methods for cleaning a UV processing chamber. In one embodiment, the method includes flowing an oxygen-containing gas through a plurality of passages formed in a UV transparent gas distribution showerhead and into a processing region located between the UV transparent gas distribution showerhead and a substrate support disposed within the thermal processing chamber, exposing the oxygen-containing gas to UV radiation under a pressure scheme comprising a low pressure stage and a high pressure stage to generate reactive oxygen radicals, and removing unwanted residues or deposition build-up from exposed surfaces of chamber components presented in the thermal processing chamber using the reactive oxygen radicals.Type: GrantFiled: April 4, 2013Date of Patent: February 25, 2014Assignee: Applied Materials, Inc.Inventors: Bo Xie, Alexandros T. Demos, Scott A. Hendrickson, Sanjeev Baluja, Juan Carlos Rocha-Alvarez
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Publication number: 20140000515Abstract: Devices and methods are provided for monitoring low-level microwave excursions from a UV curing system to determine if equipment is damaged, such as screen tears or improper assembly of UV lampheads. A radio frequency (RF) detector may be used to detect microwaves in a range of about 0.2-5 mW/cm2, wherein the RF detector comprises an antenna with a hoop shaped portion, a circuit board having a diode detector and an amplifier circuit, a housing, and a bracket coupled to the housing that is suitable for coupling the RF detector to the UV curing system. An alarm threshold may also be set, which can be correlated to microwave levels at or below levels that could cause damage to semiconductor devices being processed. A substrate processing system comprising an RF detector is also provided.Type: ApplicationFiled: June 27, 2012Publication date: January 2, 2014Applicant: Applied Materials, Inc.Inventors: SCOTT A. HENDRICKSON, Liliya Krivulina, Juan Carlos Rocha, Sanjeev Baluja
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Publication number: 20130344704Abstract: Embodiments of the invention provide methods for curing an ultra low-k dielectric film within a UV processing chamber. In one embodiment, the method includes depositing an ultra low-k dielectric layer on a substrate in a deposition chamber, and subjecting the deposited ultra low-k dielectric layer to a UV curing processes in a UV processing chamber. The method includes stabilizing the UV processing chamber by flowing an oxygen gas and a purge gas into the UV processing chamber at a flow ratio of about 1:50000 to about 1:100. While flowing the oxygen-doped purge gas, the substrate is exposed to UV radiation to cure the deposited ultra low-k dielectric layer. The inventive oxygen-doped purge curing process provides an alternate pathway to build silicon-oxygen network of the ultra low-k dielectric material, thereby accelerating cross-linking efficiency without significantly affecting the film properties of the deposited ultra low-k dielectric material.Type: ApplicationFiled: May 29, 2013Publication date: December 26, 2013Applicant: Applied Materials, Inc.Inventors: Mahendra CHHABRA, Scott A. HENDRICKSON, Sanjeev BALUJA, Tsutomu KIYOHARA, Juan Carlos ROCHA-ALVAREZ, Alexandros T. DEMOS
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Publication number: 20130284204Abstract: Embodiments of the invention generally provide methods for cleaning a UV processing chamber. In one embodiment, the method includes flowing an oxygen-containing gas through a plurality of passages formed in a UV transparent gas distribution showerhead and into a processing region located between the UV transparent gas distribution showerhead and a substrate support disposed within the thermal processing chamber, exposing the oxygen-containing gas to UV radiation under a pressure scheme comprising a low pressure stage and a high pressure stage to generate reactive oxygen radicals, and removing unwanted residues or deposition build-up from exposed surfaces of chamber components presented in the thermal processing chamber using the reactive oxygen radicals.Type: ApplicationFiled: April 4, 2013Publication date: October 31, 2013Inventors: BO XIE, Alexandros T. Demos, Scott A. Hendrickson, Sanjeev Baluja, Juan Carlos Rocha-Alvarez
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Publication number: 20130122611Abstract: The present invention generally relates to methods of controlling UV lamp output to increase irradiance uniformity. The methods generally include determining a baseline irradiance within a chamber, determining the relative irradiance on a substrate corresponding to a first lamp and a second lamp, and determining correction or compensation factors based on the relative irradiances and the baseline irradiance. The lamps are then adjusted via closed loop control using the correction or compensation factors to individually adjust the lamps to the desired output. The lamps may optionally be adjusted to equal irradiances prior to adjusting the lamps to the desired output. The closed loop control ensures process uniformity from substrate to substrate. The irradiance measurement and the correction or compensation factors allow for adjustment of lamp set points due to chamber component degradation, chamber component replacement, or chamber cleaning.Type: ApplicationFiled: November 5, 2012Publication date: May 16, 2013Inventors: YAO-HUNG YANG, Abhijit Kangude, Sanjeev Baluja, Michael Martinelli, Liliya Krivulina, Thomas Nowak, Juan Carlos Rocha-Alvarez, Scott A. Hendrickson
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Publication number: 20120258259Abstract: Embodiments of the present invention provide apparatus and methods for performing UV treatment and chemical treatment and/or deposition in the same chamber. One embodiment of the present invention provides a processing chamber including a UV transparent gas distribution showerhead disposed above a substrate support located in an inner volume of the processing chamber, a UV transparent window disposed above the UV transparent gas distribution showerhead, and a UV unit disposed outside the inner volume. The UV unit is configured to direct UV lights towards the substrate support through the UV transparent window and the UV transparent gas distribution showerhead.Type: ApplicationFiled: April 5, 2012Publication date: October 11, 2012Inventors: Amit Bansal, Dale R. Du Bois, Juan Carlos Rocha-Alvarez, Sanjeev Baluja, Scott A. Hendrickson, Thomas Nowak
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Patent number: 8203126Abstract: Embodiments of the invention relate generally to an ultraviolet (UV) cure chamber for curing a dielectric material disposed on a substrate and to methods of curing dielectric materials using UV radiation. A substrate processing tool according to one embodiment comprises a body defining a substrate processing region; a substrate support adapted to support a substrate within the substrate processing region; an ultraviolet radiation lamp spaced apart from the substrate support, the lamp configured to transmit ultraviolet radiation to a substrate positioned on the substrate support; and a motor operatively coupled to rotate at least one of the ultraviolet radiation lamp or substrate support at least 180 degrees relative to each other.Type: GrantFiled: July 22, 2010Date of Patent: June 19, 2012Assignee: Applied Materials, Inc.Inventors: Juan Carlos Rocha-Alvarez, Thomas Nowak, Dale R. Du Bois, Sanjeev Baluja, Scott A. Hendrickson, Dustin W. Ho, Andrzei Kaszuba, Tom K. Cho
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Publication number: 20120097330Abstract: A substrate processing system includes a thermal processor or a plasma generator adjacent to a processing chamber. A first processing gas enters the thermal processor or plasma generator. The first processing gas then flows directly through a showerhead into the processing chamber. A second processing gas flows through a second flow path through the showerhead. The first and second processing gases are mixed below the showerhead and a layer of material is deposited on a substrate under the showerhead.Type: ApplicationFiled: October 20, 2010Publication date: April 26, 2012Applicant: Applied Materials, Inc.Inventors: Prahallad Iyengar, Sanjeev Baluja, Dale R. DuBois, Juan Carlos Rocha-Alverez, Thomas Nowak, Scott A. Hendrickson, Yong-Won Lee, Mei-Yee Shek, Li-Qun Xia, Derek R. Witty
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Publication number: 20110298099Abstract: A silicon dioxide layer is deposited onto a substrate using a process gas comprising BDEAS and an oxygen-containing gas such as ozone. The silicon dioxide layer can be part of an etch-resistant stack that includes a resist layer. In another version, the silicon dioxide layer is deposited into through holes to form an oxide liner for through-silicon vias.Type: ApplicationFiled: June 4, 2010Publication date: December 8, 2011Applicant: APPLIED MATERIALS, INC.Inventors: Yong-Won LEE, Vladimir Zubkov, Mei-Yee SHEK, Li-Qun XIA, Prahallad IYENGAR, Sanjeev BALUJA, Scott A. HENDRICKSON, Juan Carlos ROCHA-ALVAREZ, Thomas NOWAK, Derek R. WITTY
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Publication number: 20100285240Abstract: Embodiments of the invention relate generally to an ultraviolet (UV) cure chamber for curing a dielectric material disposed on a substrate and to methods of curing dielectric materials using UV radiation. A substrate processing tool according to one embodiment comprises a body defining a substrate processing region; a substrate support adapted to support a substrate within the substrate processing region; an ultraviolet radiation lamp spaced apart from the substrate support, the lamp configured to transmit ultraviolet radiation to a substrate positioned on the substrate support; and a motor operatively coupled to rotate at least one of the ultraviolet radiation lamp or substrate support at least 180 degrees relative to each other.Type: ApplicationFiled: July 22, 2010Publication date: November 11, 2010Applicant: Applied Materials, IncInventors: Juan Carlos Rocha-Alvarez, Thomas Nowak, Dale R. Du Bois, Sanjeev Baluja, Scott A. Hendrickson, Dustin W. Ho, Andrzei Kaszuba, Tom K. Cho
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Patent number: 7777198Abstract: Embodiments of the invention relate generally to an ultraviolet (UV) cure chamber for curing a dielectric material disposed on a substrate and to methods of curing dielectric materials using UV radiation. A substrate processing tool according to one embodiment comprises a body defining a substrate processing region; a substrate support adapted to support a substrate within the substrate processing region; an ultraviolet radiation lamp spaced apart from the substrate support, the lamp configured to transmit ultraviolet radiation to a substrate positioned on the substrate support; and a motor operatively coupled to rotate at least one of the ultraviolet radiation lamp or substrate support at least 180 degrees relative to each other.Type: GrantFiled: March 15, 2007Date of Patent: August 17, 2010Assignee: Applied Materials, Inc.Inventors: Juan Carlos Rocha-Alvarez, Thomas Nowak, Dale R. Du Bois, Sanjeev Baluja, Scott A. Hendrickson, Dustin W. Ho, Andrzei Kaszuba, Tom K. Cho