Patents by Inventor Stilian Ivanov Pandev
Stilian Ivanov Pandev 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: 20180347961Abstract: A spectroscopic beam profile metrology system simultaneously detects measurement signals over a large wavelength range and a large range of angles of incidence (AOI). In one aspect, a multiple wavelength illumination beam is reshaped to a narrow line shaped beam of light before projection onto a specimen by a high numerical aperture objective. After interaction with the specimen, the collected light is passes through a wavelength dispersive element that projects the range of AOIs along one direction and wavelength components along another direction of a two-dimensional detector. Thus, the measurement signals detected at each pixel of the detector each represent a scatterometry signal for a particular AOI and a particular wavelength. In another aspect, a hyperspectral detector is employed to simultaneously detect measurement signals over a large wavelength range, range of AOIs, and range of azimuth angles.Type: ApplicationFiled: August 10, 2018Publication date: December 6, 2018Inventors: Jiyou Fu, Noam Sapiens, Kevin A. Peterlinz, Stilian Ivanov Pandev
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Patent number: 10139352Abstract: Methods and systems for measuring metrology targets smaller than the illumination spot size employed to perform the measurement are described herein. Collected measurement signals contaminated with information from structures surrounding the target area are reconstructed to eliminate the contamination. In some examples, measurement signals associated one or more small targets and one or more large targets located in close proximity to one another are used to train a signal reconstruction model. The model is subsequently used to reconstruct measurement signals from other small targets. In some other examples, multiple measurements of a small target at different locations within the target are de-convolved to estimate target area intensity. Reconstructed measurement signals are determined by a convolution of the illumination spot profile and the target area intensity. In a further aspect, the reconstructed signals are used to estimate values of parameters of interest associated with the measured structures.Type: GrantFiled: October 13, 2015Date of Patent: November 27, 2018Assignee: KLA-Tenor CorporationInventors: Stilian Ivanov Pandev, Wei Lu, Andrei V. Shchegrov, Pablo Rovira, Jonathan M. Madsen
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Patent number: 10107765Abstract: In one embodiment, apparatus and methods for determining a parameter of a target are disclosed. A target having an imaging structure and a scatterometry structure is provided. An image of the imaging structure is obtained with an imaging channel of a metrology tool. A scatterometry signal is also obtained from the scatterometry structure with a scatterometry channel of the metrology tool. At least one parameter, such as overlay error, of the target is determined based on both the image and the scatterometry signal.Type: GrantFiled: August 8, 2017Date of Patent: October 23, 2018Assignee: KLA—Tencor CorporationInventors: Noam Sapiens, Andrei V. Shchegrov, Stilian Ivanov Pandev
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Patent number: 10101676Abstract: A spectroscopic beam profile metrology system simultaneously detects measurement signals over a large wavelength range and a large range of angles of incidence (AOI). In one aspect, a multiple wavelength illumination beam is reshaped to a narrow line shaped beam of light that is projected onto an overlay metrology target such that the direction of the line shaped beam is aligned with the direction of extent of a grating structure of the overlay metrology target. Collected light is dispersed across a detector according to AOI in one direction and according to wavelength in another direction. The measured signal at each detector pixel is associated with a particular AOI and wavelength. The collected light includes first order diffracted light, zero order diffracted light, or a combination thereof. In some embodiments, first order diffracted light and zero order diffracted light are detected over separate areas of the detector.Type: GrantFiled: September 20, 2016Date of Patent: October 16, 2018Assignee: KLA—Tencor CorporationInventors: Jiyou Fu, Noam Sapiens, Kevin A. Peterlinz, Stilian Ivanov Pandev
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Patent number: 10101670Abstract: Methods and systems for creating a measurement model based on measured training data are presented. The trained measurement model is used to calculate process parameter values, structure parameter values, or both, directly from measured data collected from other wafers. The measurement models receive measurement data directly as input and provide process parameter values, structure parameter values, or both, as output. The measurement model enables the direct measurement of process parameters. Measurement data from multiple targets is collected for model building, training, and measurement. In some examples, the use of measurement data associated with multiple targets eliminates, or significantly reduces, the effect of under layers in the measurement result, and enables more accurate measurements. Measurement data collected for model building, training, and measurement, may be derived from measurements performed by a combination of multiple, different measurement techniques.Type: GrantFiled: March 24, 2014Date of Patent: October 16, 2018Assignee: KLA-Tencor CorporationInventors: Stilian Ivanov Pandev, Jonathan M. Madsen
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Patent number: 10101674Abstract: Disclosed are apparatus and methods for determining optimal focus for a photolithography system. A plurality of optical signals are acquired from a particular target located in a plurality of fields on a semiconductor wafer, and the fields were formed using different process parameters, including different focus values. A feature is extracted from the optical signals related to changes in focus. A curve is fitted to the extracted feature of the optical signals as a function of focus. An extreme point in the curve is determined and reported as an optimal focus for use in the photolithography system.Type: GrantFiled: June 8, 2016Date of Patent: October 16, 2018Assignee: KLA-Tencor CorporationInventor: Stilian Ivanov Pandev
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Patent number: 10072921Abstract: A spectroscopic beam profile metrology system simultaneously detects measurement signals over a large wavelength range and a large range of angles of incidence (AOI). In one aspect, a multiple wavelength illumination beam is reshaped to a narrow line shaped beam of light before projection onto a specimen by a high numerical aperture objective. After interaction with the specimen, the collected light is passes through a wavelength dispersive element that projects the range of AOIs along one direction and wavelength components along another direction of a two-dimensional detector. Thus, the measurement signals detected at each pixel of the detector each represent a scatterometry signal for a particular AOI and a particular wavelength. In another aspect, a hyperspectral detector is employed to simultaneously detect measurement signals over a large wavelength range, range of AOIs, and range of azimuth angles.Type: GrantFiled: December 4, 2015Date of Patent: September 11, 2018Assignee: KLA-Tencor CorporationInventors: Jiyou Fu, Noam Sapiens, Kevin A. Peterlinz, Stilian Ivanov Pandev
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Publication number: 20180252514Abstract: Methods and systems for robust overlay error measurement based on a trained measurement model are described herein. The measurement model is trained from raw scatterometry data collected from Design of Experiments (DOE) wafers by a scatterometry based overlay metrology system. Each measurement site includes one or more metrology targets fabricated with programmed overlay variations and known process variations. Each measurement site is measured with known metrology system variations. In this manner, the measurement model is trained to separate actual overlay from process variations and metrology system variations which affect the overlay measurement. As a result, an estimate of actual overlay by the trained measurement model is robust to process variations and metrology system variations. The measurement model is trained based on scatterometry data collected from the same metrology system used to perform measurements. Thus, the measurement model is not sensitive to systematic errors, aysmmetries, etc.Type: ApplicationFiled: January 4, 2018Publication date: September 6, 2018Inventors: Stilian Ivanov Pandev, Andrei V. Shchegrov, Wei Lu
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Patent number: 10062157Abstract: Disclosed are apparatus and methods for determining a structure or process parameter value of a target of interest on a semiconductor wafer. A plurality of collection patterns are defined for a spatial light beam controller positioned at a pupil image plane of a metrology tool. For each collection pattern, a signal is collected from a sensor of the metrology tool, and each collected signal represents a combination of a plurality of signals that the spatial light beam controller samples, using each collection pattern, from a pupil image of the target of interest. The collection patterns are selected so that the pupil image is reconstructable based on the collection patterns and their corresponding collection signals. The collected signal for each of the collection patterns is analyzed to determine a structure or process parameter value for the target of interest.Type: GrantFiled: November 3, 2016Date of Patent: August 28, 2018Assignee: KLA-Tencor CorporationInventors: Stilian Ivanov Pandev, Alexander Kuznetsov, Gregory R. Brady, Andrei V. Shchegrov, Noam Sapiens, John J. Hench
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Patent number: 10030965Abstract: Methods and systems for monitoring parameters characterizing a set of hot spot structures fabricated at different locations on a semiconductor wafer are presented herein. The hot spot structures are device structures that exhibit sensitivity to process variations and give rise to limitations on permissible process variations that must be enforced to prevent device failures and low yield. A trained hot spot measurement model is employed to receive measurement data generated by one or more metrology systems at one or more metrology targets and directly determine values of one or more hot spot parameters. The hot spot measurement model is trained to establish a functional relationship between one or more characteristics of a hot spot structure under consideration and corresponding measurement data associated with measurements of at least one metrology target on the same wafer. A fabrication process parameter is adjusted based on the value of a measured hot spot parameter.Type: GrantFiled: May 6, 2016Date of Patent: July 24, 2018Assignee: KLA-Tencor CorporationInventors: Stilian Ivanov Pandev, Sanjay Kapasi, Mark D. Smith, Ady Levy
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Publication number: 20180108578Abstract: Methods and systems for estimating values of parameters of interest based on repeated measurements of a wafer during a process interval are presented herein. In one aspect, one or more optical metrology subsystems are integrated with a process tool, such as an etch tool or a deposition tool. Values of one or more parameters of interest measured while the wafer is being processed are used to control the process itself. The measurements are performed quickly and with sufficient accuracy to enable yield improvement of a semiconductor fabrication process flow. In one aspect, values of one or more parameters of interest are estimated based on spectral measurements of wafers under process using a trained signal response metrology (SRM) measurement model. In another aspect, a trained signal decontamination model is employed to generate decontaminated optical spectra from measured optical spectra while the wafer is being processed.Type: ApplicationFiled: October 12, 2017Publication date: April 19, 2018Inventors: Stilian Ivanov Pandev, Dzmitry Sanko, Andrei V. Shchegrov
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Publication number: 20180051984Abstract: Methods and systems for evaluating the performance of multiple patterning processes are presented. Patterned structures are measured and one or more parameter values characterizing geometric errors induced by the multiple patterning process are determined. In some examples, a single patterned target and a multiple patterned target are measured, the collected data fit to a combined measurement model, and the value of a structural parameter indicative of a geometric error induced by the multiple patterning process is determined based on the fit. In some other examples, light having a diffraction order different from zero is collected and analyzed to determine the value of a structural parameter that is indicative of a geometric error induced by a multiple patterning process. In some embodiments, a single diffraction order different from zero is collected. In some examples, a metrology target is designed to enhance light diffracted at an order different from zero.Type: ApplicationFiled: October 15, 2017Publication date: February 22, 2018Inventors: Andrei V. Shchegrov, Shankar Krishnan, Kevin Peterlinz, Thaddeus Gerard Dziura, Noam Sapiens, Stilian Ivanov Pandev
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Patent number: 9875946Abstract: Methods and systems for performing semiconductor metrology directly on device structures are presented. A measurement model is created based on measured training data collected from at least one device structure. The trained measurement model is used to calculate process parameter values, structure parameter values, or both, directly from measurement data collected from device structures of other wafers. In some examples, measurement data from multiple targets is collected for model building, training, and measurement. In some examples, the use of measurement data associated with multiple targets eliminates, or significantly reduces, the effect of under layers in the measurement result, and enables more accurate measurements. Measurement data collected for model building, training, and measurement may be derived from measurements performed by a combination of multiple, different measurement techniques.Type: GrantFiled: April 14, 2014Date of Patent: January 23, 2018Assignee: KLA-Tencor CorporationInventors: Andrei V. Shchegrov, Jonathan M. Madsen, Stilian Ivanov Pandev, Ady Levy, Daniel Kandel, Michael E. Adel, Ori Tadmor
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Publication number: 20170356853Abstract: In one embodiment, apparatus and methods for determining a parameter of a target are disclosed. A target having an imaging structure and a scatterometry structure is provided. An image of the imaging structure is obtained with an imaging channel of a metrology tool. A scatterometry signal is also obtained from the scatterometry structure with a scatterometry channel of the metrology tool. At least one parameter, such as overlay error, of the target is determined based on both the image and the scatterometry signal.Type: ApplicationFiled: August 8, 2017Publication date: December 14, 2017Applicant: KLA-Tencor CorporationInventors: Noam Sapiens, Andrei V. Shchegrov, Stilian Ivanov Pandev
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Patent number: 9816810Abstract: Methods and systems for evaluating the performance of multiple patterning processes are presented. Patterned structures are measured and one or more parameter values characterizing geometric errors induced by the multiple patterning process are determined. In some examples, a single patterned target and a multiple patterned target are measured, the collected data fit to a combined measurement model, and the value of a structural parameter indicative of a geometric error induced by the multiple patterning process is determined based on the fit. In some other examples, light having a diffraction order different from zero is collected and analyzed to determine the value of a structural parameter that is indicative of a geometric error induced by a multiple patterning process. In some embodiments, a single diffraction order different from zero is collected. In some examples, a metrology target is designed to enhance light diffracted at an order different from zero.Type: GrantFiled: September 16, 2016Date of Patent: November 14, 2017Assignee: KLA-Tencor CorporationInventors: Andrei V. Shchegrov, Shankar Krishnan, Kevin Peterlinz, Thaddeus Gerard Dziura, Noam Sapiens, Stilian Ivanov Pandev
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Patent number: 9784690Abstract: In one embodiment, apparatus and methods for determining a parameter of a target are disclosed. A target having an imaging structure and a scatterometry structure is provided. An image of the imaging structure is obtained with an imaging channel of a metrology tool. A scatterometry signal is also obtained from the scatterometry structure with a scatterometry channel of the metrology tool. At least one parameter, such as overlay error, of the target is determined based on both the image and the scatterometry signal.Type: GrantFiled: May 8, 2015Date of Patent: October 10, 2017Assignee: KLA-Tencor CorporationInventors: Noam Sapiens, Andrei V. Shchegrov, Stilian Ivanov Pandev
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Patent number: 9721055Abstract: An optimized measurement model is determined based a model of parameter variations across a semiconductor wafer. A global, cross-wafer model characterizes a structural parameter as a function of location on the wafer. A measurement model is optimized by constraining the measurement model with the cross-wafer model of process variations. In some examples, the cross-wafer model is itself a parameterized model. However, the cross-wafer model characterizes the values of a structural parameter at any location on the wafer with far fewer parameters than a measurement model that treats the structural parameter as unknown at every location. In some examples, the cross-wafer model gives rise to constraints among unknown structural parameter values based on location on the wafer. In one example, the cross-wafer model relates the values of structural parameters associated with groups of measurement sites based on their location on the wafer.Type: GrantFiled: September 5, 2014Date of Patent: August 1, 2017Assignee: KLA-Tencor CorporationInventor: Stilian Ivanov Pandev
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Patent number: 9710728Abstract: Methods and systems for measuring overlay error between structures formed on a substrate by successive lithographic processes are presented herein. Two overlay targets, each having programmed offsets in opposite directions are employed to perform an overlay measurement. Overlay error is measured based on zero order scatterometry signals and scatterometry data is collected from each target at two different azimuth angles. In addition, methods and systems for creating an image-based measurement model based on measured, image-based training data are presented. The trained, image-based measurement model is then used to calculate values of one or more parameters of interest directly from measured image data collected from other wafers. The methods and systems for image based measurement described herein are applicable to both metrology and inspection applications.Type: GrantFiled: October 27, 2015Date of Patent: July 18, 2017Assignee: KLA-Tencor CorporationInventors: Stilian Ivanov Pandev, Siddharth Srivastava
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Publication number: 20170082932Abstract: A spectroscopic beam profile metrology system simultaneously detects measurement signals over a large wavelength range and a large range of angles of incidence (AOI). In one aspect, a multiple wavelength illumination beam is reshaped to a narrow line shaped beam of light that is projected onto an overlay metrology target such that the direction of the line shaped beam is aligned with the direction of extent of a grating structure of the overlay metrology target. Collected light is dispersed across a detector according to AOI in one direction and according to wavelength in another direction. The measured signal at each detector pixel is associated with a particular AOI and wavelength. The collected light includes first order diffracted light, zero order diffracted light, or a combination thereof. In some embodiments, first order diffracted light and zero order diffracted light are detected over separate areas of the detector.Type: ApplicationFiled: September 20, 2016Publication date: March 23, 2017Inventors: Jiyou Fu, Noam Sapiens, Kevin A. Peterlinz, Stilian Ivanov Pandev
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Publication number: 20170076440Abstract: Disclosed are apparatus and methods for determining a structure or process parameter value of a target of interest on a semiconductor wafer. A plurality of collection patterns are defined for a spatial light beam controller positioned at a pupil image plane of a metrology tool. For each collection pattern, a signal is collected from a sensor of the metrology tool, and each collected signal represents a combination of a plurality of signals that the spatial light beam controller samples, using each collection pattern, from a pupil image of the target of interest. The collection patterns are selected so that the pupil image is reconstructable based on the collection patterns and their corresponding collection signals. The collected signal for each of the collection patterns is analyzed to determine a structure or process parameter value for the target of interest.Type: ApplicationFiled: November 3, 2016Publication date: March 16, 2017Applicant: KLA-Tencor CorporationInventors: Stilian Ivanov Pandev, Alexander Kuznetsov, Gregory R. Brady, Andrei V. Shchengrov, Noam Sapiens, John J. Hench