Patents by Inventor Hichem M'Saad
Hichem M'Saad 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: 7790635Abstract: A method for forming a compressive stress carbon-doped silicon nitride layer is provided. The method includes forming an initiation layer and a bulk layer thereon, wherein the bulk layer has a compressive stress of between about ?0.1 GPa and about ?10 GPa. The initiation layer is deposited from a gas mixture that includes a silicon and carbon-containing precursor and optionally a nitrogen and/or source but does not include hydrogen gas. The bulk layer is deposited from a gas mixture that includes a silicon and carbon-containing precursor, a nitrogen source, and hydrogen gas. The initiation layer is a thin layer that allows good transfer of the compressive stress of the bulk layer therethrough to an underlying layer, such as a channel of a transistor.Type: GrantFiled: December 14, 2006Date of Patent: September 7, 2010Assignee: Applied Materials, Inc.Inventors: Mihaela Balseanu, Victor T. Nguyen, Li-Qun Xia, Vladimir Zubkov, Derek R. Witty, Hichem M'Saad
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Patent number: 7790583Abstract: One embodiment of the present invention is a method for cleaning an electron beam treatment apparatus that includes: (a) generating an electron beam that energizes a cleaning gas in a chamber of the electron beam treatment apparatus; (b) monitoring an electron beam current; (c) adjusting a pressure of the cleaning gas to maintain the electron beam current at a substantially constant value; and (d) stopping when a predetermined condition has been reached.Type: GrantFiled: October 26, 2007Date of Patent: September 7, 2010Assignee: Applied Materials, Inc.Inventors: Alexandros T. Demos, Khaled A. Elsheref, Josphine J. Chang, Hichem M'saad
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Patent number: 7780865Abstract: Methods of controlling the step coverage and pattern loading of a layer on a substrate are provided. The dielectric layer may be a silicon nitride, silicon oxide, or silicon oxynitride layer. The method comprises depositing a dielectric layer on a substrate having at least one formed feature across a surface of the substrate and etching the dielectric layer with a plasma from oxygen or a halogen-containing gas to provide a desired profile of the dielectric layer on the at least one formed feature. The deposition of the dielectric layer and the etching of the dielectric layer may be repeated for multiple cycles to provide the desired profile of the dielectric layer.Type: GrantFiled: March 29, 2007Date of Patent: August 24, 2010Assignee: Applied Materials, Inc.Inventors: Mihaela Balseanu, Li-Qun Xia, Mei-Yee Shek, Hichem M'Saad
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Patent number: 7777197Abstract: Methods and apparatus for electron beam treatment of a substrate are provided. An electron beam apparatus that includes a vacuum chamber, at least one thermocouple assembly in communication with the vacuum chamber, a heating device in communication with the vacuum chamber, and combinations thereof are provided. In one embodiment, the vacuum chamber comprises an electron source wherein the electron source comprises a cathode connected to a high voltage source, an anode connected to a low voltage source, and a substrate support. In another embodiment, the vacuum chamber comprises a grid located between the anode and the substrate support. In one embodiment the heating device comprises a first parallel light array and a second light array positioned such that the first parallel light array and the second light array intersect. In one embodiment the thermocouple assembly comprises a temperature sensor made of aluminum nitride.Type: GrantFiled: June 22, 2006Date of Patent: August 17, 2010Assignee: Applied Materials, Inc.Inventors: Amir Al-Bayati, Lester A. D'Cruz, Alexandros T. Demos, Dale R. Dubois, Khaled A. Elsheref, Naoyuki Iwasaki, Hichem M'Saad, Juan Carlos Rocha-Alvarez, Ashish Shah, Takashi Shimizu
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Publication number: 20100151671Abstract: Methods are provided for forming a structure that includes an air gap. In one embodiment, a method is provided for forming a damascene structure comprises depositing a porous low dielectric constant layer by a method including reacting an organosilicon compound and a porogen-providing precursor, depositing a porogen-containing material, and removing at least a portion of the porogen-containing material, depositing an organic layer on the porous low dielectric constant layer by reacting the porogen-providing precursor, forming a feature definition in the organic layer and the porous low dielectric constant layer, filing the feature definition with a conductive material therein, depositing a mask layer on the organic layer and the conductive material disposed in the feature definition, forming apertures in the mask layer to expose the organic layer, removing a portion or all of the organic layer through the apertures, and forming an air gap adjacent the conductive material.Type: ApplicationFiled: March 1, 2010Publication date: June 17, 2010Applicant: APPLIED MATERIALS, INC.Inventors: Alexandros T. Demos, Li-Qun Xia, Bok Hoen Kim, Derek R. Witty, Hichem M'Saad
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Patent number: 7732342Abstract: Compressive stress in a film of a semiconductor device may be controlled utilizing one or more techniques, employed alone or in combination. A first set of embodiments increase silicon nitride compressive stress by adding hydrogen to the deposition chemistry, and reduce defects in a device fabricated with a high compressive stress silicon nitride film formed in the presence of hydrogen gas. A silicon nitride film may comprise an initiation layer formed in the absence of a hydrogen gas flow, underlying a high stress nitride layer formed in the presence of a hydrogen gas flow. A silicon nitride film formed in accordance with an embodiment of the present invention may exhibit a compressive stress of 2.8 GPa or higher.Type: GrantFiled: April 5, 2006Date of Patent: June 8, 2010Assignee: Applied Materials, Inc.Inventors: Mihaela Balseanu, Li-Qun Xia, Vladimir Zubkov, Mei-Yee Shek, Isabelita Rolfox, Hichem M'Saad
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Patent number: 7723228Abstract: Unwanted hillocks arising in copper layers due to formation of overlying barrier layers may be significantly reduced by optimizing various process parameters, alone or in combination. A first set of process parameters may be controlled to pre-condition the processing chamber in which the barrier layer is deposited. A second set of process parameters may be controlled to minimize energy to which a copper layer is exposed during removal of CuO prior to barrier deposition. A third set of process parameters may be controlled to minimize the thermal budget after removal of the copper oxide.Type: GrantFiled: May 20, 2003Date of Patent: May 25, 2010Assignee: Applied Materials, Inc.Inventors: Nagarajan Rajagopalan, Meiyee Shek, Kegang Huang, Bok Hoen Kim, Hichem M'saad, Thomas Nowak
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Patent number: 7718081Abstract: A method of etching a substrate is provided. The method of etching a substrate includes transferring a pattern into the substrate using a double patterned amorphous carbon layer on the substrate as a hardmask. Optionally, a non-carbon based layer is deposited on the amorphous carbon layer as a capping layer before the pattern is transferred into the substrate.Type: GrantFiled: June 2, 2006Date of Patent: May 18, 2010Assignee: Applied Materials, Inc.Inventors: Wei Liu, Jim Zhongyi He, Sang H. Ahn, Meihua Shen, Hichem M'Saad, Wendy H. Yeh, Christopher D. Bencher
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Patent number: 7718548Abstract: A process to form a copper-silicon-nitride layer on a copper surface on a semiconductor wafer is described. The process may include the step of exposing the wafer to a first plasma made from helium. The process may also include exposing the wafer to a second plasma made from a reducing gas, where the second plasma removes copper oxide from the copper surface, and exposing the wafer to silane, where the silane reacts with the copper surface to selectively form copper silicide. The process may further include exposing the wafer to a third plasma made from ammonia and molecular nitrogen to form the copper silicon nitride layer.Type: GrantFiled: December 5, 2007Date of Patent: May 18, 2010Assignee: Applied Materials, Inc.Inventors: Sang M. Lee, Vladimir Zubkov, Zhenijiang Cui, Meiyee Shek, Li-Qun Xia, Hichem M'Saad
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Patent number: 7704816Abstract: Methods of forming boron-containing films are provided. The methods include introducing a boron-containing precursor into a chamber and depositing a network comprising boron-boron bonds on a substrate by thermal decomposition or a plasma process. The network may be post-treated to remove hydrogen from the network and increase the stress of the resulting boron-containing film. The boron-containing films have a stress between about ?10 GPa and 10 GPa and may be used as boron source layers or as strain-inducing layers.Type: GrantFiled: July 11, 2008Date of Patent: April 27, 2010Assignee: Applied Materials, Inc.Inventors: Jeong-Uk Huh, Mihaela Balseanu, Li-Qun Xia, Derek R. Witty, Hichem M'Saad
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Patent number: 7700486Abstract: A method for seasoning a chamber and depositing a low dielectric constant layer on a substrate in the chamber is provided. In one aspect, the method includes seasoning the chamber with a first mixture comprising one or more organosilicon compounds and one or more oxidizing gases and depositing a low dielectric constant layer on a substrate in the chamber from a second mixture comprising one or more organosilicon compounds and one or more oxidizing gases, wherein a ratio of the total flow rate of the organosilicon compounds to the total flow rate of the oxidizing gases in the first mixture is lower than the total flow rate of the organosilicon compounds to the total flow rate of the oxidizing gases in the second mixture.Type: GrantFiled: June 16, 2006Date of Patent: April 20, 2010Assignee: Applied Materials, Inc.Inventors: Sohyun Park, Wen H. Zhu, Tzu-Fang Huang, Li-Qun Xia, Hichem M'Saad
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Patent number: 7699935Abstract: A method and apparatus for cleaning a process chamber are provided. In one embodiment, a process chamber is provided that includes a remote plasma source and a process chamber having at least two processing regions. Each processing region includes a substrate support assembly disposed in the processing region, a gas distribution system configured to provide gas into the processing region above the substrate support assembly, and a gas passage configured to provide gas into the processing region below the substrate support assembly. A first gas conduit is configured to flow a cleaning agent from the remote plasma source through the gas distribution assembly in each processing region while a second gas conduit is configured to divert a portion of the cleaning agent from the first gas conduit to the gas passage of each processing region.Type: GrantFiled: June 19, 2008Date of Patent: April 20, 2010Assignee: Applied Materials, Inc.Inventors: Ramprakash Sankarakrishnan, Dale DuBois, Ganesh Balasubramanian, Karthik Janakiraman, Juan Carlos Rocha-Alvarez, Thomas Nowak, Visweswaren Sivaramakrishnan, Hichem M'Saad
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Patent number: 7692171Abstract: 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: April 6, 2010Inventors: Andrzei Kaszuba, Juan Carlos Rocha-Alvarez, Sanjeev Baluja, Tom K. Cho, Hichem M'Saad, Scott A. Hendrickson, Dustin W. Ho, Thomas Nowak
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Patent number: 7678662Abstract: A memory cell comprises a p-doped substrate with a pair of spaced apart n-doped regions on the substrate that form a source and drain about the channel. A stack of layers on the channel comprises, in sequence, (i) a tunnel oxide layer, (ii) a floating gate, (iii) an inter-gate dielectric, and (iv) a control gate. A polysilicon layer is on the source and drain. A cover layer covering the stack of layers comprises a spacer layer and a pre-metal-deposition layer. Optionally, contacts are used to contact each of the source, drain, and silicide layers, and each have exposed portions. A shallow isolation trench is provided about n-doped regions, the trench comprising a stressed silicon oxide layer having a tensile stress of at least about 200 MPa. The stressed layer reduces leakage of charge held in the floating gate during operation of the memory cell.Type: GrantFiled: December 12, 2006Date of Patent: March 16, 2010Assignee: Applied Materials, Inc.Inventors: Reza Arghavani, Ellie Yieh, Hichem M'Saad
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Patent number: 7670924Abstract: Methods are provided for forming a structure that includes an air gap. In one embodiment, a method is provided for forming a damascene structure comprises depositing a porous low dielectric constant layer by a method including reacting an organosilicon compound and a porogen-providing precursor, depositing a porogen-containing material, and removing at least a portion of the porogen-containing material, depositing an organic layer on the porous low dielectric constant layer by reacting the porogen-providing precursor, forming a feature definition in the organic layer and the porous low dielectric constant layer, filing the feature definition with a conductive material therein, depositing a mask layer on the organic layer and the conductive material disposed in the feature definition, forming apertures in the mask layer to expose the organic layer, removing a portion or all of the organic layer through the apertures, and forming an air gap adjacent the conductive material.Type: GrantFiled: January 22, 2008Date of Patent: March 2, 2010Assignee: Applied Materials, Inc.Inventors: Alexandros T. Demos, Li-Qun Xia, Bok Hoen Kim, Derek R. Witty, Hichem M'Saad
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Publication number: 20100048030Abstract: A method of forming a layer on a substrate in a chamber, wherein the substrate has at least one formed feature across its surface, is provided. The method includes exposing the substrate to a silicon-containing precursor in the presence of a plasma to deposit a layer, treating the deposited layer with a plasma, and repeating the exposing and treating until a desired thickness of the layer is obtained. The plasma may be generated from an oxygen-containing gas.Type: ApplicationFiled: September 16, 2009Publication date: February 25, 2010Applicant: APPLIED MATERIALS, INC.Inventors: MIHAELA BALSEANU, Meiyee Shek, Li-Qun Xia, Hichem M'Saad
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Patent number: 7663121Abstract: An ultraviolet (UV) cure chamber enables curing a dielectric material disposed on a substrate and in situ cleaning thereof. A tandem process chamber provides two separate and adjacent process regions defined by a body covered with a lid having windows aligned respectively above each process region. One or more UV bulbs per process region that are covered by housings coupled to the lid emit UV light directed through the windows onto substrates located within the process regions. The UV bulbs can be an array of light emitting diodes or bulbs utilizing a source such as microwave or radio frequency. The UV light can be pulsed during a cure process. Using oxygen radical/ozone generated remotely and/or in-situ accomplishes cleaning of the chamber. Use of lamp arrays, relative motion of the substrate and lamp head, and real-time modification of lamp reflector shape and/or position can enhance uniformity of substrate illumination.Type: GrantFiled: June 15, 2006Date of Patent: February 16, 2010Assignee: Applied Materials, Inc.Inventors: Thomas Nowak, Juan Carlos Rocha-Alvarez, Andrzej Kaszuba, Scott A. Hendrickson, Dustin W. Ho, Sanjeev Baluja, Tom Cho, Josephine Chang, Hichem M'Saad
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Publication number: 20100012273Abstract: A method and apparatus for cleaning a process chamber are provided. In one embodiment, a process chamber is provided that includes a remote plasma source and a process chamber having at least two processing regions. Each processing region includes a substrate support assembly disposed in the processing region, a gas distribution system configured to provide gas into the processing region above the substrate support assembly, and a gas passage configured to provide gas into the processing region below the substrate support assembly. A first gas conduit is configured to flow a cleaning agent from the remote plasma source through the gas distribution assembly in each processing region while a second gas conduit is configured to divert a portion of the cleaning agent from the first gas conduit to the gas passage of each processing region.Type: ApplicationFiled: October 1, 2009Publication date: January 21, 2010Applicant: APPLIED MATERIALS, INC.Inventors: Ramprakash Sankarakrishnan, Dale DuBois, Ganesh Balasubramanian, Karthik Janakiraman, Juan Carlos Rocha-Alvarez, Thomas Nowak, Visweswaren Sivaramakrishnan, Hichem M'Saad
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Patent number: 7638440Abstract: Methods are provided for depositing amorphous carbon materials. In one aspect, the invention provides a method for processing a substrate including forming a dielectric material layer on a surface of the substrate, depositing an amorphous carbon layer on the dielectric material layer by introducing a processing gas comprises one or more hydrocarbon compounds and an argon carrier gas, and generating a plasma of the processing gas by applying power from a dual-frequency RF source, etching the amorphous carbon layer to form a patterned amorphous carbon layer, and etching feature definitions in the dielectric material layer corresponding to the patterned amorphous carbon layer. The amorphous carbon layer may act as an etch stop, an anti-reflective coating, or both.Type: GrantFiled: March 12, 2004Date of Patent: December 29, 2009Assignee: Applied Materials, Inc.Inventors: Yuxiang May Wang, Sudha S. R. Rathi, Michael Chiu Kwan, Hichem M'Saad
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Publication number: 20090314309Abstract: A method and apparatus for cleaning a process chamber are provided. In one embodiment, a process chamber is provided that includes a remote plasma source and a process chamber having at least two processing regions. Each processing region includes a substrate support assembly disposed in the processing region, a gas distribution system configured to provide gas into the processing region above the substrate support assembly, and a gas passage configured to provide gas into the processing region below the substrate support assembly. A first gas conduit is configured to flow a cleaning agent from the remote plasma source through the gas distribution assembly in each processing region while a second gas conduit is configured to divert a portion of the cleaning agent from the first gas conduit to the gas passage of each processing region.Type: ApplicationFiled: June 19, 2008Publication date: December 24, 2009Inventors: Ramprakash Sankarakrishnan, Dale DuBois, Ganesh Balasubramanian, Karthik Janakiraman, Juan Carlos Rocha-Alvarez, Thomas Nowak, Visweswaren Sivaramakrishnan, Hichem M'Saad