Patents Represented by Attorney, Agent or Law Firm Ann Marie Mewherter
-
Patent number: 7711521Abstract: Various methods and systems for detection of selected defects particularly in relatively noisy inspection data are provided. One method includes applying a spatial filter algorithm to raw inspection data acquired across an area on a substrate to determine a first portion of the raw inspection data that has a higher probability of being a selected type of defect than a second portion of the raw inspection data. The selected type of defect includes a non-point defect. The method also includes generating a raw two-dimensional map illustrating the first portion of the raw inspection data. In addition, the method includes searching the raw two-dimensional map for an event that has spatial characteristics that approximately match spatial characteristics of the selected type of defect. The method further includes determining if the event corresponds to a defect having the selected type.Type: GrantFiled: May 12, 2008Date of Patent: May 4, 2010Assignee: KLA-Tencor Technologies Corp.Inventors: Sean Wu, Haiguang Chen, Michael D. Kirk
-
Patent number: 7711514Abstract: Various computer-implemented methods, carrier media, and systems for generating a metrology sampling plan are provided. One computer-implemented method for generating a metrology sampling plan includes identifying one or more individual defects that have one or more attributes that are abnormal from one or more attributes of a population of defects in which the individual defects are included. The population of defects is located in a predetermined pattern on a wafer. The method also includes generating the metrology sampling plan based on results of the identifying step such that one or more areas on the wafer in which the one or more identified individual defects are located are sampled during metrology.Type: GrantFiled: August 10, 2007Date of Patent: May 4, 2010Assignee: KLA-Tencor Technologies Corp.Inventors: Allen Park, Ellis Chang
-
Methods and systems for providing illumination of a specimen for a process performed on the specimen
Patent number: 7705331Abstract: Methods and systems for providing illumination of a specimen for a process performed on the specimen are provided. One system configured to provide illumination of a specimen for a process performed on the specimen includes a laser configured to generate excitation light. The system also includes focusing optics configured to focus the excitation light to a plasma in an electrodeless lamp such that the plasma generates light. The system is also configured such that the light illuminates the specimen during the process.Type: GrantFiled: June 29, 2007Date of Patent: April 27, 2010Assignee: KLA-Tencor Technologies Corp.Inventors: Greg Kirk, Rich Solarz, Chris Kirk, Gil Delgado, Anatoly Schemelinin, Jim Li, Qibiao Chen, Charles Nenghe Wang -
Patent number: 7697129Abstract: Systems and methods for inspecting a wafer with increased sensitivity are provided. One system includes an inspection subsystem configured to direct light to a spot on the wafer and to generate output signals responsive to light scattered from the spot on the wafer. The system also includes a gas flow subsystem configured to replace a gas located proximate to the spot on the wafer with a medium that scatters less of the light than the gas thereby increasing the sensitivity of the system. In addition, the system includes a processor configured to detect defects on the wafer using the output signals.Type: GrantFiled: December 14, 2006Date of Patent: April 13, 2010Assignee: KLA-Tencor Technologies Corp.Inventors: Kurt L. Haller, David Shortt, Christian Wolters
-
Patent number: 7689966Abstract: Various computer-implemented methods are provided. One method for evaluating reticle layout data includes generating a simulated image using the reticle layout data as input to a model of a reticle manufacturing process. The simulated image illustrates how features of the reticle layout data will be formed on a reticle by the reticle manufacturing process. The method also includes determining manufacturability of the reticle layout data using the simulated image. The manufacturability is a measure of how accurately the features will be formed on the reticle. Also provided are various carrier media that include program instructions executable on a computer system for performing a method for evaluating reticle layout data as described herein. In addition, systems configured to evaluate reticle layout data are provided. The systems include a computer system and a carrier medium that includes program instructions executable on the computer system for performing method(s) described herein.Type: GrantFiled: September 14, 2005Date of Patent: March 30, 2010Assignee: KLA-Tencor Technologies Corp.Inventors: Gaurav Verma, Lance Glasser, Moshe E. Preil
-
Patent number: 7678516Abstract: Various test structures and methods for monitoring or controlling a semiconductor fabrication process are provided. One test structure formed on a wafer as a monitor for a lithography process includes a bright field target that includes first grating structures. The test structure also includes a dark field target that includes second grating structures. The first and second grating structures have one or more characteristics that are substantially the same as one or more characteristics of device structures formed on the wafer. In addition, the test structure includes a phase shift target having characteristics that are substantially the same as the characteristics of the bright field or dark field target except that grating structures of the phase shift target are shifted in optical phase from the first or second grating structures. One or more characteristics of the targets can be measured and used to determine parameter(s) of the lithography process.Type: GrantFiled: July 22, 2005Date of Patent: March 16, 2010Assignee: KLA-Tencor Technologies Corp.Inventors: Kevin Monahan, Brad Eichelberger, Ady Levy
-
Patent number: 7676077Abstract: Various methods and systems for utilizing design data in combination with inspection data are provided. One computer-implemented method for determining a position of inspection data in design data space includes aligning data acquired by an inspection system for alignment sites on a wafer with data for predetermined alignment sites. The method also includes determining positions of the alignment sites on the wafer in design data space based on positions of the predetermined alignment sites in the design data space. In addition, the method includes determining a position of inspection data acquired for the wafer by the inspection system in the design data space based on the positions of the alignment sites on the wafer in the design data space. In one embodiment, the position of the inspection data is determined with sub-pixel accuracy.Type: GrantFiled: November 20, 2006Date of Patent: March 9, 2010Assignee: KLA-Tencor Technologies Corp.Inventors: Ashok Kulkarni, Brian Duffy, Kais Maayah, Gordon Rouse
-
Patent number: 7671982Abstract: Inspection systems, circuits, and methods are provided to enhance defect detection by reducing thermal damage to large particles by dynamically altering the incident laser beam power level supplied to the specimen during a surface inspection scan. In one embodiment, an inspection system includes an illumination subsystem for directing light to a specimen at a first power level, a detection subsystem for detecting light scattered from the specimen, and a power attenuator subsystem for dynamically altering the power level directed to the specimen based on the scattered light detected from the specimen. The power attenuator subsystem may reduce the directed light to a second power level, which is lower than the first, if the detected scattered light exceeds a predetermined threshold level. The systems and methods described herein may also be used to extend the measurement detection range of an inspection system by providing a variable-power inspection system.Type: GrantFiled: October 14, 2008Date of Patent: March 2, 2010Assignee: KLA-Tencor Technologies Corp.Inventors: Christian H. Wolters, Anatoly Romanovsky
-
Patent number: 7659975Abstract: Methods and systems for inspection of a wafer or setting up an inspection process are provided. One method for inspection of a wafer includes detecting first and second sets of defects on the wafer by performing different scans of the wafer with different focus offsets. The method also includes comparing results of the different scans for a defect of the first set and a defect of the second set that are detected at approximately the same location on the wafer. The method further includes determining if the defect of the first and second sets is a defect of an underlying layer or an uppermost layer formed on the wafer based on results of the comparing step.Type: GrantFiled: September 19, 2006Date of Patent: February 9, 2010Assignee: KLA-Tencor Technologies Corp.Inventors: Vijay Ramani, Koki Mochizuki
-
Patent number: 7646906Abstract: Computer-implemented methods for detecting defects in reticle design data are provided. One method includes generating a first simulated image illustrating how the reticle design data will be printed on a reticle using a reticle manufacturing process. The method also includes generating second simulated images using the first simulated image. The second simulated images illustrate how the reticle will be printed on a wafer at different values of one or more parameters of a wafer printing process. The method further includes detecting defects in the reticle design data using the second simulated images. Another method includes the generating steps described above in addition to determining a rate of change in a characteristic of the second simulated images as a function of the different values. This method also includes detecting defects in the reticle design data based on the rate of change.Type: GrantFiled: January 31, 2005Date of Patent: January 12, 2010Assignee: KLA-Tencor Technologies Corp.Inventors: Zain K. Saidin, Yalin Xiong, Lance Glasser, Carl Hess, Moshe E. Preil
-
Patent number: 7623239Abstract: Various systems for measurement of a specimen are provided. One system includes an optical subsystem configured to perform measurements of a specimen using vacuum ultraviolet light and non-vacuum ultraviolet light. This system also includes a purging subsystem that is configured to maintain a purged environment around the optical subsystem during the measurements. Another system includes a cleaning subsystem configured to remove contaminants from a specimen prior to measurement. In one embodiment, the cleaning subsystem may be a laser-based cleaning subsystem that is configured to remove contaminants from a localized area on the specimen. The system also includes an optical subsystem that is configured to perform measurements of the specimen using vacuum ultraviolet light. The optical subsystem is disposed within a purged environment. In some embodiments, the system may include a differential purging subsystem that is configured to provide the purged environment for the optical subsystem.Type: GrantFiled: April 15, 2008Date of Patent: November 24, 2009Assignee: KLA-Tencor Technologies Corp.Inventors: John Fielden, Gary Janik, Shing Lee
-
Patent number: 7623229Abstract: Systems and methods for inspecting wafers are provided. One system includes a detection subsystem configured to separately and simultaneously detect light scattered from different portions of a single spot obliquely, or normally, illuminated on a wafer and to separately generate output responsive to the separately detected light that can be used to detect defects on the wafer. The system can, therefore, effectively perform a multi-spot type of inspection of the wafer using only a single obliquely or normally illuminated spot on the wafer.Type: GrantFiled: October 7, 2008Date of Patent: November 24, 2009Assignee: KLA-Tencor CorporationInventors: Mehdi Vaez-Iravani, Stephen Biellak
-
Patent number: 7570800Abstract: Methods and systems for binning defects detected on a specimen are provided. One method includes comparing a test image to reference images. The test image includes an image of one or more patterned features formed on the specimen proximate to a defect detected on the specimen. The reference images include images of one or more patterned features associated with different regions of interest within a device being formed on the specimen. If the one or more patterned features of the test image match the one or more patterned features of one of the reference images, the method includes assigning the defect to a bin corresponding to the region of interest associated with the reference image.Type: GrantFiled: December 14, 2005Date of Patent: August 4, 2009Assignee: KLA-Tencor Technologies Corp.Inventors: Jason Z. Lin, Xing Chu, Kenong Wu, Sharon McCauley
-
Patent number: 7570796Abstract: Various methods and systems for utilizing design data in combination with inspection data are provided. One computer-implemented method for binning defects detected on a wafer includes comparing portions of design data proximate positions of the defects in design data space. The method also includes determining if the design data in the portions is at least similar based on results of the comparing step. In addition, the method includes binning the defects in groups such that the portions of the design data proximate the positions of the defects in each of the groups are at least similar. The method further includes storing results of the binning step in a storage medium.Type: GrantFiled: November 20, 2006Date of Patent: August 4, 2009Assignee: KLA-Tencor Technologies Corp.Inventors: Khurram Zafar, Sagar Kekare, Ellis Chang, Allen Park, Peter Rose
-
Patent number: 7570797Abstract: Methods and systems for generating an inspection process for an inspection system are provided. One computer implemented method includes generating inspection data for a selected defect on a specimen at different values of one or more image acquisition parameters of the inspection system. The method also includes determining which of the different values produces the best inspection data for the selected defect. In addition, the method includes selecting the different values determined to produce the best inspection data as values of the one or more image acquisition parameters to be used for the inspection process.Type: GrantFiled: May 10, 2005Date of Patent: August 4, 2009Assignee: KLA-Tencor Technologies Corp.Inventors: David Wang, Patrick Huet, Tong Huang, Martin Plihal, Adam Chien-Huei Chen, Mike Van Riet, Stewart Hill
-
Patent number: 7564552Abstract: Various systems for measurement of a specimen are provided. One system includes a first optical subsystem, which is disposed within a purged environment. The purged environment may be provided by a differential purging subsystem. The first optical subsystem performs measurements using vacuum ultraviolet light. This system also includes a second optical subsystem, which is disposed within a non-purged environment. The second optical subsystem performs measurements using non-vacuum ultraviolet light. Another system includes two or more optical subsystems configured to perform measurements of a specimen using vacuum ultraviolet light. The system also includes a purging subsystem configured to maintain a purged environment around the two or more optical subsystems. The purging subsystem is also configured to maintain the same level of purging in both optical subsystems.Type: GrantFiled: May 14, 2004Date of Patent: July 21, 2009Assignee: KLA-Tencor Technologies Corp.Inventors: John Fielden, Gary Janik, Shing Lee
-
Patent number: 7554656Abstract: Methods and systems for inspection of a wafer are provided. One method includes illuminating the wafer with light at a first wavelength that penetrates into the wafer and light at a second wafer that does not substantially penetrate into the wafer. The method also includes generating output signals responsive to light from the wafer resulting from the illuminating step. In addition, the method includes detecting defects on the wafer using the output signals. The method further includes determining if the defects are subsurface defects or surface defects using the output signals.Type: GrantFiled: October 6, 2005Date of Patent: June 30, 2009Assignee: KLA-Tencor Technologies Corp.Inventors: David Shortt, Stephen Biellak, Alexander Belyaev
-
Patent number: 6829559Abstract: Methods and systems for monitoring semiconductor fabrication processes are provided. A system may include a stage configured to support a specimen and coupled to a measurement device. The measurement device may include an illumination system and a detection system. The illumination system and the detection system may be configured such that the system may be configured to determine multiple properties of the specimen. For example, the system may be configured to determine multiple properties of a specimen including, but not limited to, a presence of macro and micro defects. In this manner, a measurement device may perform multiple optical and/or non-optical metrology and/or inspection techniques.Type: GrantFiled: September 20, 2001Date of Patent: December 7, 2004Assignee: K.L.A.-Tencor TechnologiesInventors: Gary Bultman, Ady Levy, Kyle A. Brown, Mehrdad Nikoonahad, Dan Wack, John Fielden
-
Patent number: 6818459Abstract: Methods and systems for monitoring semiconductor fabrication processes are provided. A system may include a stage configured to support a specimen and coupled to a measurement device. The measurement device may include an illumination system and a detection system. The illumination system and the detection system may be configured such that the system may be configured to determine multiple properties of the specimen. For example, the system may be configured to determine multiple properties of a specimen including, but not limited to, a presence of macro defects and overlay of a specimen. In this manner, a measurement device may perform multiple optical and/or non-optical metrology and/or inspection techniques.Type: GrantFiled: October 22, 2003Date of Patent: November 16, 2004Assignee: KLA-Tencor Technologies Corp.Inventors: Dan Wack, Ady Levy, Kyle A. Brown, Gary Bultman, Mehrdad Nikoonahad, John Fielden
-
Patent number: 6812045Abstract: Methods and systems for monitoring semiconductor fabrication processes are provided. A system may include a stage configured to support a specimen and coupled to a measurement device. The measurement device may include an illumination system and a detection system. The illumination system and the detection system may be configured such that the system may be configured to determine multiple properties of the specimen. For example, the system may be configured to determine multiple properties of a specimen including, but not limited to, a characteristic of a specimen prior to, during, or subsequent to ion implantation. In this manner, a measurement device may perform multiple optical and/or non-optical metrology and/or inspection techniques.Type: GrantFiled: September 20, 2001Date of Patent: November 2, 2004Assignee: KLA-Tencor, Inc.Inventors: Mehrdad Nikoonahad, Ady Levy, Kyle A. Brown, Gary Bultman, Dan Wack, John Fielden