Patents by Inventor Katrina A. Mikhaylich
Katrina A. Mikhaylich 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: 8287656Abstract: Methods for monitoring meniscus processing of a wafer surface to stabilize a meniscus are provided. In one example, the processing is in response to a current recipe that defines a desired gap between the wafer surface and a proximity head. The method includes the operations of monitoring current meniscus processing to determine that a current gap is other than the desired gap, and identifying a calibration recipe that specifies the current gap. The method then continues the meniscus processing of the wafer surface using process parameters specified by the identified calibration recipe.Type: GrantFiled: September 22, 2011Date of Patent: October 16, 2012Assignee: Lam Research CorporationInventors: G. Grant Peng, Cristian Paduraru, Katrina Mikhaylich
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Publication number: 20120006359Abstract: Methods for monitoring meniscus processing of a wafer surface to stabilize a meniscus are provided. In one example, the processing is in response to a current recipe that defines a desired gap between the wafer surface and a proximity head. The method includes the operations of monitoring current meniscus processing to determine that a current gap is other than the desired gap, and identifying a calibration recipe that specifies the current gap. The method then continues the meniscus processing of the wafer surface using process parameters specified by the identified calibration recipe.Type: ApplicationFiled: September 22, 2011Publication date: January 12, 2012Inventors: G. Grant Peng, Cristian Paduraru, Katrina Mikhaylich
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Patent number: 8051863Abstract: Apparatus monitors a meniscus process that is performed on wafers. Monitoring data for a current process received by a processor indicates characteristics of a gap between the wafer and a process head. The processor is configured to respond to the data that is in the form of orientation monitor signals and to respond to a current recipe. The processor generates meniscus monitor signals for allowing the meniscus to remain stable in further meniscus processing. The monitoring is of current meniscus processing to determine whether a current gap (i) is other than a desired gap of the current recipe, and (ii) corresponds to a stable meniscus. If so, a calibration recipe is identified as specifying the current gap. This calibration recipe specifies parameters for meniscus processing the wafer surface with the current gap. The meniscus processing of the wafer surface is continued using the parameters specified by the identified calibration recipe.Type: GrantFiled: October 6, 2008Date of Patent: November 8, 2011Assignee: Lam Research CorporationInventors: G. Grant Peng, Cristian Paduraru, Katrina Mikhaylich
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Publication number: 20090101173Abstract: Apparatus monitors a meniscus process that is performed on wafers. Monitoring data for a current process received by a processor indicates characteristics of a gap between the wafer and a process head. The processor is configured to respond to the data that is in the form of orientation monitor signals and to respond to a current recipe. The processor generates meniscus monitor signals for allowing the meniscus to remain stable in further meniscus processing. The monitoring is of current meniscus processing to determine whether a current gap (i) is other than a desired gap of the current recipe, and (ii) corresponds to a stable meniscus. If so, a calibration recipe is identified as specifying the current gap. This calibration recipe specifies parameters for meniscus processing the wafer surface with the current gap. The meniscus processing of the wafer surface is continued using the parameters specified by the identified calibration recipe.Type: ApplicationFiled: October 6, 2008Publication date: April 23, 2009Inventors: G. Grant Peng, Cristian Paduraru, Katrina Mikhaylich
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Publication number: 20080148595Abstract: A method for processing a substrate using a proximity head is disclosed. The method is initiated by, providing a head with a head surface positioned proximate to a surface of the substrate. The head has a width and a length, and the head has a plurality of ports that are configured in rows along the length of the head. The plurality of rows can extend over a width of the head, and there is a first group of ports configured to dispense a first fluid. The first fluid is dispensed to the surface of the substrate forming a meniscus between the surface of the substrate and the surface of the head. The method also includes delivering gaseous carbon dioxide from a second group of ports of the head to an interface between the meniscus and the substrate. The carbon dioxide assists in promoting a reduced surface tension on the meniscus relative to surface of the substrate.Type: ApplicationFiled: December 20, 2006Publication date: June 26, 2008Applicant: Lam Research CorporationInventors: John M. de Larios, Paul A. Kittle, Michael Ravkin, Mikhail Korolik, Erik Freer, Katrina Mikhaylich, Fritz C. Redeker
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Patent number: 7270597Abstract: In one embodiment, a method for cleaning a chemical mechanical polishing (CMP) pad is provided. The CMP pad surface has a residue thereon. Chemicals are applied onto the surface of the CMP pad and the pad surface is rinsed so as to substantially remove by-product produced by the chemicals. A mechanical conditioning operation is performed on the surface of the pad. The wafer surface includes copper and oxide during the CMP operation.Type: GrantFiled: October 21, 2005Date of Patent: September 18, 2007Assignee: Lam Research CorporationInventors: Julia S. Svirchevski, Katrina A. Mikhaylich
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Patent number: 7231682Abstract: A method for cleaning a semiconductor substrate is provided. The method initiates with transferring the semiconductor substrate into a chamber. Then, a first side of the semiconductor substrate is cleaned according to a first cleaning technique. A second side of the semiconductor substrate is simultaneously cleaned according to a second cleaning technique. The semiconductor substrate is then transferred from the chamber. A system and apparatus for simultaneously cleaning opposing sides of a semiconductor substrate are also provided.Type: GrantFiled: August 28, 2003Date of Patent: June 19, 2007Assignee: Lam Research CorporationInventors: John M. Boyd, Katrina Mikhaylich, Fred C. Redeker
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Patent number: 7029369Abstract: An apparatus is provided for polishing a substrate. The apparatus includes a polishing pad configured to traverse from at least a first point to a second point. A first sensor is located near the first point and oriented so as to sense an incoming temperature of the polishing pad. A second sensor is located near the second point and oriented so as to sense an outgoing temperature of the polishing pad. A difference between the incoming temperature and the outgoing temperature is then used to determine endpoint of a polishing operation.Type: GrantFiled: December 30, 2003Date of Patent: April 18, 2006Assignee: Lam Research CorporationInventors: Katrina A. Mikhaylich, Mike Ravkin, Yehiel Gotkis
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Publication number: 20060040595Abstract: In one embodiment, a method for cleaning a chemical mechanical polishing (CMP) pad is provided. The CMP pad surface has a residue thereon. Chemicals are applied onto the surface of the CMP pad and the pad surface is rinsed so as to substantially remove by-product produced by the chemicals. A mechanical conditioning operation is performed on the surface of the pad. The wafer surface includes copper and oxide during the CMP operation.Type: ApplicationFiled: October 21, 2005Publication date: February 23, 2006Applicant: Lam Research Corp.Inventors: Julia Svirchevski, Katrina Mikhaylich
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Patent number: 6994611Abstract: A method and a system are provided for cleaning a CMP pad. The method starts by applying chemicals onto the surface of the CMP pad. The chemicals are then allowed to react with a residue that may be on the pad to produce by-products. Next, the pad surface is rinsed to substantially remove the by-products. A mechanical conditioning operation is then performed on the surface of the pad. In one example, the wafer surface can be a metal, such as copper. Where the wafer surface is copper, the chemical is most preferably HCl, and a solution includes HCl and DI water. Where the wafer surface is oxide, the chemical is most preferably NH4OH, and the solution includes NH4OH and DI water. Generally, the CMP pad can be in the form of a linear belt, in the form of an round disk, or in any other mechanical or physical configuration.Type: GrantFiled: October 30, 2001Date of Patent: February 7, 2006Assignee: Lam Research CorporationInventors: Julia S. Svirchevski, Katrina A. Mikhaylich
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Publication number: 20050121059Abstract: A single substrate cleaning apparatus that prevents galvanic corrosion is provided. The apparatus includes a spindle configured to rotatably support a substrate. A moveable dispense arm disposed over the spindle is included. The dispense arm supports a first supply line and a second supply line. The first supply line has a first nozzle affixed to an end of the first supply line, and the second supply line has a second nozzle affixed to an end of the second supply line. The first nozzle is positioned behind the second nozzle such that a fluid dispensed from the second nozzle is dried by application of a fluid simultaneously dispensed from the first nozzle in manner that protects the substrate from galvanic corrosion.Type: ApplicationFiled: January 4, 2005Publication date: June 9, 2005Inventors: John Boyd, Mike Ravkin, Katrina Mikhaylich
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Patent number: 6858091Abstract: A method for minimizing galvanic corrosion effects in a single-wafer cleaning system is provided. The method initiates with spraying a cleaning chemistry containing corrosion inhibitors onto a surface of a wafer. Then, the surface of the wafer is exposed to the cleaning chemistry for a period of time. Next, a concentration gradient at an interface of the cleaning chemistry and the surface of the wafer is refreshed. Then, a rinsing agent and a drying agent are applied simultaneously to remove the cleaning chemistry, wherein the drying agent dries the surface of the wafer prior to a concentration of the corrosion inhibitors being diluted to a level insufficient to provide corrosion protection.Type: GrantFiled: December 7, 2001Date of Patent: February 22, 2005Assignee: Lam Research CorporationInventors: John M. Boyd, Mike Ravkin, Katrina A. Mikhaylich
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Patent number: 6845778Abstract: An apparatus for cleaning a semiconductor substrate is provided. In embodiment of the present invention, a megasonic cleaner capable of providing localized heating is provided. The megasonic cleaner includes a transducer and a resonator. The resonator is configured to propagate energy from the transducer. The resonator has a first and a second end, the first end is operatively coupled to the transducer and the second end is configured to provide localized heating while propagating the energy from the transducer. A system for cleaning a semiconductor substrate through megasonic cleaning and a method for cleaning a semiconductor substrate is also provided.Type: GrantFiled: March 29, 2002Date of Patent: January 25, 2005Assignee: Lam Research CorporationInventors: John M. Boyd, Katrina Mikhaylich
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Patent number: 6827793Abstract: A method for cleaning a wafer with a drip nozzle being configured for use in a drip manifold that is oriented over a brush of a wafer cleaning system is provided. The drip nozzle has a first end and a second end with a passage defined there between where the passage includes a wall that extends longitudinally between the first end and the second end. An orifice is defined within the passage and located at the first end of the drip nozzle. The method includes inputting a fluid into the drip nozzle at an acute angle relative to a longitudinal extension of the wall and reflecting the fluid stream off an internal wall of the drip nozzle at least twice in a direction that is toward the second end. The method further includes outputting at least one substantially uniform drop from the second end of the passage.Type: GrantFiled: September 12, 2003Date of Patent: December 7, 2004Assignee: Lam Research CorporationInventors: Don E. Anderson, Katrina A. Mikhaylich, Mike Ravkin, John M. de Larios
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Publication number: 20040216764Abstract: A method and a system are provided for cleaning a surface of a wafer. The method starts by scrubbing the surface of the wafer with a cleaning brush that applies a chemical solution to the surface of the wafer. In one example, the cleaning brush implements a through the brush (TTB) technique to apply the chemicals. The scrubbing is generally performed in a brush box, with a top cleaning brush and a bottom cleaning brush. The top cleaning brush is then removed from contact with the surface of the wafer. The chemical concentration in the top brush may be maintained at substantially the same concentration that was in the brush during the scrubbing operation. Next, a flow of water (preferably de-ionized water) is delivered to the surface of the wafer. The delivery of water is preferably configured to remove substantially all of the chemical solution from the surface of the wafer before proceeding to a next cleaning operation.Type: ApplicationFiled: January 27, 2004Publication date: November 4, 2004Applicant: Lam Research CorporationInventors: Katrina A. Mikhaylich, Mike Ravkin, Don E. Anderson
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Patent number: 6800020Abstract: A system for conditioning a pad is provided. The system includes a pad conditioning media, a feed-roll containing a supply of the pad conditioning media, and a take-up roll for receiving an end of the pad conditioning media. Further included in the system is a pressure application member defined between the feed-roll and the take-up roll. The pressure application member is designed to apply pressure onto the pad conditioning media as the pad conditioning media is applied against the pad to cause a conditioning of a surface of the pad.Type: GrantFiled: October 2, 2000Date of Patent: October 5, 2004Assignee: Lam Research CorporationInventors: John M. Boyd, Katrina A. Mikhaylich
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Publication number: 20040157531Abstract: An apparatus is provided for polishing a substrate. The apparatus includes a polishing pad configured to traverse from at least a first point to a second point. A first sensor is located near the first point and oriented so as to sense an incoming temperature of the polishing pad. A second sensor is located near the second point and oriented so as to sense an outgoing temperature of the polishing pad. A difference between the incoming temperature and the outgoing temperature is then used to determine endpoint of a polishing operation.Type: ApplicationFiled: December 30, 2003Publication date: August 12, 2004Applicant: Lam Research CorporationInventors: Katrina A. Mikhaylich, Mike Ravkin, Yehiel Gotkis
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Patent number: 6726530Abstract: Chemical mechanical polishing systems and methods are disclosed. The system includes a polishing pad that is configured to move from a first point to a second point. A carrier is also included and is configured to hold a substrate to be polished over the polishing pad. The carrier is designed to apply the substrate to the polishing pad in a polish location that is between the first point and the second point. A first sensor is located at the first point and oriented so as to sense an IN temperature of the polishing pad, and a second sensor is located a the second point and oriented so as to sense an OUT temperature of the polishing pad. The sensing of the IN and OUT temperatures is configured to produce a temperature differential that allows monitoring the process state and the state of the wafer surface for purposes of switching the process steps while processing wafers by chemical mechanical planarization.Type: GrantFiled: January 17, 2002Date of Patent: April 27, 2004Assignee: Lam Research CorporationInventors: Katrina A. Mikhaylich, Mike Ravkin, Yehiel Gotkis
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Publication number: 20040060575Abstract: A method for cleaning a wafer with a drip nozzle being configured for use in a drip manifold that is oriented over a brush of a wafer cleaning system is provided. The drip nozzle has a first end and a second end with a passage defined there between where the passage includes a wall that extends longitudinally between the first end and the second end. An orifice is defined within the passage and located at the first end of the drip nozzle. The method includes inputting a fluid into the drip nozzle at an acute angle relative to a longitudinal extension of the wall and reflecting the fluid stream off an internal wall of the drip nozzle at least twice in a direction that is toward the second end. The method further includes outputting at least one substantially uniform drop from the second end of the passage.Type: ApplicationFiled: September 12, 2003Publication date: April 1, 2004Applicant: Lam Research CorporationInventors: Don E. Anderson, Katrina A. Mikhaylich, Mike Ravkin, John M. de Larios
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Patent number: 6711775Abstract: A method and a system are provided for cleaning a surface of a wafer. The method starts by scrubbing the surface of the wafer with a cleaning brush that applies a chemical solution to the surface of the wafer. In one example, the cleaning brush implements a through the brush (TTB) technique to apply the chemicals. The scrubbing is generally performed in a brush box, with a top cleaning brush and a bottom cleaning brush. The top cleaning brush is then removed from contact with the surface of the wafer. The chemical concentration in the top brush may be maintained at substantially the same concentration that was in the brush during the scrubbing operation. Next, a flow of water (preferably de-ionized water) is delivered to the surface of the wafer. The delivery of water is preferably configured to remove substantially all of the chemical solution from the surface of the wafer before proceeding to a next cleaning operation.Type: GrantFiled: June 10, 1999Date of Patent: March 30, 2004Assignee: Lam Research CorporationInventors: Katrina A. Mikhaylich, Mike Ravkin, Don E. Anderson