Patents by Inventor Peter De Groot
Peter De Groot 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: 7924435Abstract: An apparatus is disclosed which includes an interferometry system configured to operate in a first mode to produce a first set of multiple interferometry signals corresponding to different illumination angles of a test object by test light and in a second mode produce a second set of multiple interferometry signals corresponding to different surface locations of a test object. An electronic processor coupled to the interferometry system is configured to receive the first set of interferometry signals and programmed to compare information derivable from the first set of multiple interferometry signals to information corresponding to multiple models of the test object to determine information related to one or features of the test object, and output the information. In some embodiments, the features include an under-resolved feature.Type: GrantFiled: December 21, 2007Date of Patent: April 12, 2011Assignee: Zygo CorporationInventors: Xavier Colonna De Lega, Peter De Groot
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Patent number: 7889355Abstract: A method is disclosed which includes: using a scanning interferometry system, generating a sequence of phase-shifted interferometry images at different scan positions of an object comprising a buried surface, identifying a scan position corresponding to a position of best focus for the buried surface based on the sequence of phase-shifted interferometry images of the object, and generating a final image based on the phase-shifted interferometry images and the scan position, where the interferometric fringes in the final image are reduced relative to the interferometric fringes in the phase-shifted interferometry images.Type: GrantFiled: June 4, 2007Date of Patent: February 15, 2011Assignee: Zygo CorporationInventors: Xavier Colonna De Lega, Robert Stoner, Peter De Groot
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Publication number: 20110032535Abstract: Systems are disclosed that include an interferometer configured to direct test light to an overlay test pad and subsequently combine it with reference light, the test and reference light being derived from a common source, one or more optics configured to direct at least a portion of the combined light to a multi-element detector so that different regions of the detector correspond to different illumination angles of the overlay test pad by the test light, the detector being configured to produce an interference signal based on the combined light, and an electronic processor in communication with the multi-element detector. The overlay test pad comprises a first patterned structure and a second patterned structure and the electronic processor is configured to determine information about the relative alignment between the first and second patterned structures based on the interference signal.Type: ApplicationFiled: August 4, 2009Publication date: February 10, 2011Applicant: Zygo CorporationInventors: Jan Liesener, Xavier Colonna de Lega, Peter de Groot
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Patent number: 7884947Abstract: Disclosed is an apparatus which includes: an interferometer configured to direct broadband spatially coherent test light to a test surface of a test object over a range of illumination angles and subsequently combine it with reference light to form an interference pattern, the test and reference light being derived from a common source; and multi-element detector; and one or more optics configured to direct at least a portion of the combined light to the detector so that different elements of the detector correspond to different illumination angles of a region of the test surface illuminated by the test light.Type: GrantFiled: June 5, 2007Date of Patent: February 8, 2011Assignee: Zygo CorporationInventors: Xavier Colonna De Lega, Peter De Groot
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Patent number: 7869057Abstract: A method is disclosed including: generating a scanning interferometry signal at each of multiple wavelengths for each of at least one location on a test object; obtaining the scanning interferometry signals at each of the multiple wavelengths for each of at least one location on the test object; analyzing the scanning interferometry signals to determine information about the test object; and outputting the information about the test object. Each scanning interferometry signal corresponds to interference between test light and reference light as an optical path length difference between the test and reference light is varied. The test and reference light are derived from a common source, and the test light emerges from the test object over a range of angles corresponding to a numerical aperture of greater than 0.7.Type: GrantFiled: July 20, 2007Date of Patent: January 11, 2011Assignee: Zygo CorporationInventor: Peter De Groot
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Publication number: 20100291276Abstract: A conveyor system includes a plurality of produce clamps that rotate around a clamp conveyor assembly. On a field side of the conveyor system, a synchronous conveyor belt provides a support for the butt or stem of a plant placed thereon, in between clamps. As the clamp conveyor turns away from the field side, the clamps close and fully support the plants. The conveyor assembly carries the clamps, and the clamped plants, through a series of coring and trimming blades. The clamps then open to release the cored and trimmed product onto a collection conveyor, and the clamps continue to the field side to receive further plants for processing.Type: ApplicationFiled: June 21, 2010Publication date: November 18, 2010Applicant: Valley FabricationInventors: Peter de Groot, Brian Caprara
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Patent number: 7826064Abstract: System for monitoring a position of one or more optical elements in a projection objective (PO) include a plurality of sensors each configured to receive input light and to form output light, each sensor including a first sensor optic and a second sensor optic, the first sensor optic of at least one of the sensors being affixed to a first PO optical element and the second sensor optic of the at least one sensor being affixed to a support element that positions the first PO optical element within the PO, the first and second sensor optics being configured introduce a first optical path length difference (OPD) between two components of the input light to form the output light, the first OPD being related to the position of the first PO optical element with respect to the support element.Type: GrantFiled: December 11, 2009Date of Patent: November 2, 2010Assignee: Zygo CorporationInventors: Peter de Groot, Leslie L. Deck, Carl Zanoni
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Publication number: 20100265516Abstract: Disclosed is an interferometry analysis method that includes comparing information derivable from multiple interferometry signals corresponding to different surface locations of a test object to information corresponding to multiple models of the test object, wherein the multiple models are parametrized by a series of characteristics that relate to one or more under-resolved lateral features of the test object; and outputting information about the under-resolved surface feature based on the comparison.Type: ApplicationFiled: February 8, 2010Publication date: October 21, 2010Inventors: Peter De Groot, Michael J. Darwin, Robert Stoner, Gregg M. Gallatin, Xavier Colonna De Lega
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Publication number: 20100238455Abstract: In certain aspects, disclosed methods include combining reference light reflected from a reference surface with test light reflected from a test surface to form combined light, the test and reference light being derived from a common source, sinusoidally varying a phase between the test light and reference light, where the sinusoidal phase variation has an amplitude u, recording at least one interference signal related to changes in an intensity of the combined light in response to the sinusoidal variation of the phase, determining information related to the phase using a phase shifting algorithm that has a sensitivity that varies as a function of the sinusoidal phase shift amplitude, where the sensitivity of the algorithm at 2 u is 10% or less of the sensitivity of the algorithm at u.Type: ApplicationFiled: March 20, 2009Publication date: September 23, 2010Applicant: Zygo CorporationInventor: Peter de Groot
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INTERFEROMETER WITH MULTIPLE MODES OF OPERATION FOR DETERMINING CHARACTERISTICS OF AN OBJECT SURFACE
Publication number: 20100134786Abstract: Disclosed is a system including: (i) an interferometer configured to direct test electromagnetic radiation to a test surface and reference electromagnetic radiation to a reference surface and subsequently combine the electromagnetic radiation to form an interference pattern, the electromagnetic radiation being derived from a common source; (ii) a multi-element detector; and (iii) one or more optics configured to image the interference pattern onto the detector so that different elements of the detector correspond to different illumination angles of the test surface by the test electromagnetic radiation.Type: ApplicationFiled: October 15, 2009Publication date: June 3, 2010Inventors: Xavier Colonna De Lega, Peter De Groot -
Publication number: 20100128280Abstract: In general, in one aspect, the invention features apparatus that includes a broadband scanning interferometry system including interferometer optics for combining test light from a test object with reference light from a reference object to form an interference pattern on a detector, wherein the test and reference light are derived from a common light source. The interferometry system further includes a scanning stage configured to scan an optical path difference (OPD) between the test and reference light from the common source to the detector and a detector system including the detector for recording the interference pattern for each of a series of OPD increments, wherein the frequency of each OPD increment defines a frame rate. The interferometer optics are configured to produce at least two monitor interferometry signals each indicative of changes in the OPD as the OPD is scanned, wherein the detector system is further configured to record the monitor interferometry signals.Type: ApplicationFiled: July 24, 2009Publication date: May 27, 2010Applicant: ZYGO CORPORATIONInventors: Mark Davidson, Jan Liesener, Peter de Groot, Xavier Colonna de Lega, Leslie L. Deck
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Publication number: 20100128276Abstract: Interferometry system are disclosed that include a detector sub-system including a monitor detector, interferometer optics for combining test light from a test object with primary reference light from a first reference interface and secondary reference light from a second reference interface to form a monitor interference pattern on a monitor detector, wherein the first and second reference interfaces are mechanically fixed with respect to each other and the test light, a scanning stage configured to scan an optical path difference (OPD) between the test light and the primary and secondary reference light to the monitor detector while the detector sub-system records the monitor interference pattern for each of a series of OPD increments, and an electronic processor electronically coupled to the detector sub-system and the scanning stage, the electronic processor being configured to determine information about the OPD increments based on the detected monitor interference pattern.Type: ApplicationFiled: August 14, 2009Publication date: May 27, 2010Applicant: Zygo CorporationInventors: Peter De Groot, Mark Davidson, Jan Liesener, Xavier Colonna de Lega, Leslie L. Deck
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Publication number: 20100128278Abstract: Apparatus include a microscope including an objective and a stage for positioning a test object relative to the objective, the stage being moveable with respect to the objective, and a sensor system, that includes a sensor light source, an interferometric sensor configured to receive light from the sensor light source, to introduce an optical path difference (OPD) between a first portion and a second portion of the light, the OPD being related to a distance between the objective lens and the stage, and to combine the first and second portions of the light to provide output light, a detector configured to detect the output light from the interferometric sensor, a fiber waveguide configured to direct light between the sensor light source, the interferometric sensor and the detector, a tunable optical cavity in a path of the light from the sensor light source and the interferometric sensor, and an electronic controller in communication with the detector, the electronic controller being configured to determine inType: ApplicationFiled: August 31, 2009Publication date: May 27, 2010Applicant: Zygo CorporationInventors: Leslie L. Deck, Peter De Groot, Mark Davidson, Jan Liesener, Xavier Colonna De Lega
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Publication number: 20100091296Abstract: System for monitoring a position of one or more optical elements in a projection objective (PO) include a plurality of sensors each configured to receive input light and to form output light, each sensor including a first sensor optic and a second sensor optic, the first sensor optic of at least one of the sensors being affixed to a first PO optical element and the second sensor optic of the at least one sensor being affixed to a support element that positions the first PO optical element within the PO, the first and second sensor optics being configured introduce a first optical path length difference (OPD) between two components of the input light to form the output light, the first OPD being related to the position of the first PO optical element with respect to the support element.Type: ApplicationFiled: December 11, 2009Publication date: April 15, 2010Applicant: Zygo CorporationInventors: Peter de Groot, Leslie L. Deck, Carl Zanoni
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Patent number: 7684049Abstract: Disclosed is an interferometry analysis method that includes comparing information derivable from multiple interferometry signals corresponding to different surface locations of a test object to information corresponding to multiple models of the test object, wherein the multiple models are parameterized by a series of characteristics that relate to one or more under-resolved lateral features of the test object; and outputting information about the under-resolved surface feature based on the comparison.Type: GrantFiled: January 22, 2008Date of Patent: March 23, 2010Assignee: Zygo CorporationInventors: Peter De Groot, Michael J. Darwin, Robert Stoner, Gregg M. Gallatin, Xavier Colonna De Lega
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Patent number: 7639367Abstract: In general, in one aspect, the invention features a system including a light source, a plurality of interferometers configured to receive light from the light source and to form output light, each interferometer including a first optic and a second optic, the first and second optics configured to be mounted on a first object and a second object, respectively, where first object is moveable with respect to the second object, the first and second optics being configured introduce an optical path length difference (OPD) between two components of the light to form the output light, the OPD being related to the position of the first optic with respect to the second optic.Type: GrantFiled: March 19, 2008Date of Patent: December 29, 2009Assignee: Zygo CorporationInventors: Peter de Groot, Leslie L. Deck, Carl A. Zanoni
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Patent number: 7636166Abstract: In general, in one aspect, the invention features a system that includes a first object mounted relative to a second object, the first object being moveable with respect to the second object. The system includes a plurality of interferometers each configured to derive a first wavefront and a second wavefront from input radiation and to combine the first and second wavefronts to provide output radiation including information about an optical path length difference between the paths of the first and second wavefronts, each interferometer including a reflective element positioned in the path of the first wavefront, and at least one of the interferometer's reflective element is mounted on the first object. The system also includes a plurality of fiber waveguides and an electronic controller. Each fiber waveguide is configured to deliver the input radiation to a corresponding interferometer or deliver the output radiation from the corresponding interferometer to a corresponding detector.Type: GrantFiled: January 23, 2007Date of Patent: December 22, 2009Assignee: Zygo CorporationInventors: Peter De Groot, Leslie L. Deck, Carl Zanoni
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Patent number: 7636168Abstract: In general, in one aspect, the disclosure features a method that includes directing measurement light to reflect from a measurement surface and combining the reflected measurement light with reference light, where the measurement light and reference light are derived from a common source, and there is a non-zero optical path length difference between the measurement light and reference light that is greater than a coherence length of the measurement light. The method further includes spectrally dispersing the combined light onto a multi-element detector to detect a spatially-varying intensity pattern, determining spatial information about the measurement surface based on the spatially-varying intensity pattern, and outputting the spatial information.Type: GrantFiled: October 11, 2006Date of Patent: December 22, 2009Assignee: Zygo CorporationInventors: Xavier Colonna De Lega, Peter De Groot
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Publication number: 20090303493Abstract: A method is disclosed which includes: using a scanning interferometry system, generating a sequence of phase-shifted interferometry images at different scan positions of an object comprising a buried surface, identifying a scan position corresponding to a position of best focus for the buried surface based on the sequence of phase-shifted interferometry images of the object, and generating a final image based on the phase-shifted interferometry images and the scan position, where the interferometric fringes in the final image are reduced relative to the interferometric fringes in the phase-shifted interferometry images.Type: ApplicationFiled: August 13, 2009Publication date: December 10, 2009Applicant: ZYGO CORPORATIONInventors: Xavier Colonna de Lega, Robert Stoner, Peter de Groot
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Interferometer with multiple modes of operation for determining characteristics of an object surface
Patent number: 7616323Abstract: Disclosed is a system including: (i) an interferometer configured to direct test electromagnetic radiation to a test surface and reference electromagnetic radiation to a reference surface and subsequently combine the electromagnetic radiation to form an interference pattern, the electromagnetic radiation being derived from a common source; (ii) a multi-element detector; and (iii) one or more optics configured to image the interference pattern onto the detector so that different elements of the detector correspond to different illumination angles of the test surface by the test electromagnetic radiation.Type: GrantFiled: January 19, 2006Date of Patent: November 10, 2009Assignee: Zygo CorporationInventors: Xavier Colonna De Lega, Peter De Groot