Patents Examined by Tara S. Pajoohi
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Patent number: 8804137Abstract: A combined metrology mark, a system, and a method for calculating alignment on a semiconductor circuit are disclosed. The combined metrology mark may include a mask misregistration structure and a wafer overlay mark structure.Type: GrantFiled: June 21, 2010Date of Patent: August 12, 2014Assignee: KLA-Tencor CorporationInventors: DongSub Choi, Amir Widmann, Zain Saidin, Frank Laske, John Robinson
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Patent number: 8773648Abstract: An imaging system may be collect information related to a specific gemstone such that a user may later access those images in a manner that allows the user to emulate a microscope. The illustrative embodiment of the imaging system may allow a subject gemstone to be rotated by 360 degrees in yaw, pitch, and roll dimensions relative to an image capture device, and the linear distance between the image capture device and the subject gemstone to be adjusted. The illustrative embodiment of the image capture device may record images of the subject gemstone at a plurality of focal points in three-dimensional space from a plurality of angles. A viewer system may be used to access images for a specific gemstone.Type: GrantFiled: February 19, 2013Date of Patent: July 8, 2014Inventor: Jeffrey L. High
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Patent number: 8773650Abstract: An accurate measurement method and apparatus are disclosed for shape sensing with a multi-core fiber. A change in optical length is detected in ones of the cores in the multi-core fiber up to a point on the multi-core fiber. A location and/or a pointing direction are/is determined at the point on the multi-core fiber based on the detected changes in optical length. The accuracy of the determination is better than 0.5% of the optical length of the multi-core fiber up to the point on the multi-core fiber. In a preferred example embodiment, the determining includes determining a shape of at least a portion of the multi-core fiber based on the detected changes in optical length.Type: GrantFiled: September 2, 2010Date of Patent: July 8, 2014Assignee: Intuitive Surgical Operations, Inc.Inventors: Mark E. Froggatt, Justin W. Klein, Dawn K. Gifford, Stephen Tod Kreger
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Patent number: 8760636Abstract: Disclosed herein are methods and systems for scanning objects and associated substances, where the methods include: (a) using a first electronic device to scan a feature of an object and provide reference information about the object based on the scanned feature, where the feature identifies the object or a substance associated with the object; (b) using a second electronic device to measure electromagnetic radiation emitted from the object and provide sample information about the object based on the measured electromagnetic radiation; and (c) comparing the sample information and the reference information to determine whether the object includes the substance associated with the object.Type: GrantFiled: August 10, 2007Date of Patent: June 24, 2014Assignee: Thermo Scientific Portable Analytical Instruments Inc.Inventors: Kevin J. Knopp, Daryoosh Vakhshoori, Christopher Brown, Gregory Vander Rhodes
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Patent number: 8749769Abstract: A method and system for determining stress associated with a communication device, e.g., an optical fiber, and associated structures are disclosed. An exemplary method includes transmitting an initiated signal through a communication device, and comparing a reflected signal reflected by the communication device with the initiated signal. The method may further include determining a stress associated with the device from at least the comparison of the initiated signal and the reflected signal.Type: GrantFiled: June 29, 2010Date of Patent: June 10, 2014Assignee: Verizon Patent and Licensing Inc.Inventors: David Zhi Chen, George N. Bell
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Patent number: 8743368Abstract: An optical detection system is provided for generating and detecting a beam of electromagnetic radiation having intensity. The optical detection system comprises a source for producing the beam of electromagnetic radiation; and a body, that is at least partially transparent and comprises an ATR-sensor layer on at least a portion of the body, having an entrance surface for the beam of electromagnetic radiation, an internally or externally reflective surface that reflects the beam transmitted through the entrance surface, and an exit surface through which the beam, reflected from the second surface, exits the transparent body. The optical detection system may further comprise a distribution device between the beam source and the body; wherein the distribution device redistributes the intensity of the beam from a non-uniform intensity distribution to a substantially uniform intensity distribution; and a detector that detects the beam of electromagnetic radiation exiting the body.Type: GrantFiled: November 12, 2009Date of Patent: June 3, 2014Assignee: General Electric CompanyInventors: Mark Marshall Meyers, Bengt Arne Ivarsson
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Patent number: 8730479Abstract: System, including methods and apparatus, for light detection and signal processing for droplet-based assays. An exemplary system provides a method of detection for droplets. An examination region of a channel may be illuminated with first pulses of light interleaved with second pulses of light as droplets pass through the examination region, the first pulses being spectrally distinct from the second pulses. Data may be collected representing light detected during illumination of the examination region with the first pulses and the second pulses. Each droplet may be illuminated with a beam of light that is narrower than a diameter of the droplets.Type: GrantFiled: December 30, 2011Date of Patent: May 20, 2014Assignee: Bio-Rad Laboratories, Inc.Inventors: Kevin D. Ness, Mark A. Arbore, Jerry E. Hurst, David L. Klein, Donald A. Masquelier
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Patent number: 8724108Abstract: Photoelectric autocollimation methods and apparatuses based on beam drift compensation are provided. The methods and apparatuses can be used to achieve a high autocollimation angle measurement accuracy. The apparatuses includes an autocollimator, a measurement mirror (12a), a beam drift monitoring and separating unit, a beam steering device (8), and a data processing controller (7). The beam drift monitoring and separating unit generate a reference beam with the same drift as the measurement beam. The measurement beam carries both angular deflection information of the measurement mirror and the angular beam drift information, while the reference beam carries only the angular beam drift information. The data processing controller gives out a signal to the beam steering device in real-time according to the magnitude of drift of the reference beam, to compensate the drift of the measurement beam.Type: GrantFiled: January 18, 2012Date of Patent: May 13, 2014Assignee: Harbin Institute of TechnologyInventors: Jiubin Tan, Fan Zhu, Jiwen Cui
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Patent number: 8717562Abstract: Apparatus are described for measuring the characteristics of colloidal particles suspended in transparent media by Dynamic Light Scattering (DLS) and Depolarized Dynamic Light Scattering (DDLS) into regions where conventional measurements are difficult or impractical. Matching the diameter of an illuminating beam and an intersecting diameter of a field stop image extends measurements into regions that include concentrated turbid suspensions that frequently appear so visually opaque that multiple scattering typically gives a falsely low estimate of particle size.Type: GrantFiled: August 23, 2010Date of Patent: May 6, 2014Assignee: Scattering Solutions, Inc.Inventors: Anthony E. Smart, William V. Meyer, Craig J. Saltiel
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Patent number: 8705029Abstract: A device, system, and methods are disclosed for detecting the presence or determining a quantitative amount of at least one drug substance from exhaled breath of a subject in-situ. A collecting surface has a Surface Enhanced Raman Spectroscopy (SERS)-active layer that comprises at least one SERS-active material. The collecting surface is arranged as an outer surface of a waveguide for contact with exhaled breath, such that at least traces of said at least one drug substance in said exhaled breath can contact said SERS-active layer for read-out of a Raman shift spectrum that is detected in-situ for said detecting the presence or determining the quantitative amount of said at least one drug substance from said exhaled breath.Type: GrantFiled: January 11, 2013Date of Patent: April 22, 2014Assignee: Sensa Bues ABInventors: Göran Palmskog, Olof Beck, Per Ola Andersson
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Patent number: 8699024Abstract: A tunable optical filter is disclosed having an input port, a beam translator for translating input and output optical beams, an element having optical power for collimating the translated beam, a reflective wavelength dispersive element, and an output port. The beam translator can include a tiltable MEMS mirror coupled to an angle-to-offset optical element. An output port can be extended into a plurality of egress ports, each receiving a fraction of the scanned optical spectrum. A multi-path scanning optical spectrometer can be used as an optical channel monitor for monitoring performance of a wavelength selective switch, or for other tasks.Type: GrantFiled: August 23, 2011Date of Patent: April 15, 2014Assignee: JDS Uniphase CorporationInventors: Paul Colbourne, Shane H. Woodside, Oleg Bouevitch
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Patent number: 8699026Abstract: A detector for detecting a birefringent object near a skin surface of a human body part or an animal body part includes a source for emitting optical radiation having first and second wavelengths and an incident polarization state. An imaging unit is configured to image the birefringent object near the surface includes a detection unit for detecting optical radiation scattered and/or reflected by the birefringent object and/or the surface at the first and second wavelengths. A control unit is configured to process a signal from the detection unit for discrimination between the birefringent object and the surface. The detection unit is configured to detect scattered and/or reflected optical radiation coming from the birefringent object and/or the surface, having a first polarization state corresponding to the incident polarization state and a second polarization state being different from the first polarization state.Type: GrantFiled: March 15, 2010Date of Patent: April 15, 2014Assignee: Koninklijke Philips N.V.Inventors: Babu Varghese, Rieko Verhagen, Bart Willem Jan Spikker, Natallia Eduardauna Uzunbajakava
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Patent number: 8692979Abstract: A sensor module (1) for measuring the distance to a target and/or the velocity of the target (50), the sensor module (1) comprising at least one laser source (100), at least one detector (200) being adapted to detect modulated laser light and at least one control element the control element (400) being adapted to vary the focus point of the laser light and/or the intensity of the laser light and/or the direction of the laser light. The control of the laser light emitted by the laser source (100) either by active optical devices as variable focus lenses or controllable attenuators or passive optical elements in combination with arrays of laser sources (100) and detectors (200) enable flexible and robust sensor modules.Type: GrantFiled: January 12, 2009Date of Patent: April 8, 2014Assignee: Koninklijke Philips N.V.Inventors: Holger Moench, Mark Carpaij, Alexander Marc Van Der Lee, Stefan Schwan, Meng Han, Marcel Franz Christian Schemmann
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Patent number: 8692997Abstract: A gas or particulate sensor is provided for the detection of at least two target gases and/or particulates. The sensor comprises: a chamber for containing a gas sample under test; a first optical measurement channel configured for the detection of a first target gas or particulate within the gas sample, and a second optical measurement channel configured for the detection of a second target gas or particulate within the gas sample, each optical measurement channel comprising a respective optopair which comprises a radiation source adapted to emit radiation and a radiation detector adapted to output a signal in response to detected radiation; and focusing optics able to form an image of an object.Type: GrantFiled: August 24, 2011Date of Patent: April 8, 2014Assignee: BAH Holdings LLCInventors: Michael Tkachuk, Michael Gouzman
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Patent number: 8687192Abstract: Through silicon imaging and probing. A light source provides unpolarized light to be projected on a device under test (DUT). Light reflected from the DUT may be captured by a camera or other image capture device. A pellicle is utilized to reflect light from the light source toward the DUT. The pellicle also passes light reflected by the DUT to the camera. One or more linear polarizers or half wave plates may be used to provide the desired light polarization. The ability to provide the desired polarization provides an improved image that can be captured by the camera.Type: GrantFiled: March 29, 2011Date of Patent: April 1, 2014Assignee: Intel CorporationInventors: Baohua Niu, Patrick M. Pardy, David L. Budka, Mitchell L. Sacks
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Patent number: 8681329Abstract: An Echelle spectrometer arrangement (10) with internal order separation contains an Echelle grating (34) and a dispersing element (38) for order separation so that a two-dimensional spectrum having a plurality of separate orders (56) can be generated, an imagine optical system (18, 22, 28, 46), a flat-panel detector (16), and predispersion means (20) for predispersing the radiation into the direction of traverse dispersion of the dispersion element (38). The arrangement is characterized in that the predispersion means (20) comprise a predispersion element which is arranged along the optical path behind the inlet spacing (12) inside the spectrometer arrangement. The imaging optical system is designed in such a manner that the predispersed radiation can be imaged onto an additional image plane (24) which does not have any boundaries in the predispersion direction and which is arranged along the optical path between the predispersion element (20) and the echelle grating (34).Type: GrantFiled: January 25, 2010Date of Patent: March 25, 2014Assignee: Leibniz-Institut Fur Analytische Wissenschaften—Isas—E.V.Inventors: Helmut Becker-Roβ, Stefan Florek, Michael Okruss
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Patent number: 8675187Abstract: In an analysis system for detecting amounts of components contained in samples, many samples can be measured simultaneously in the whole of the system by use of compact inexpensive photometers. An LED with low heat generation and a long life span is used as a light source. Compactness is achieved by bended optical axis instead of a straight one. Components for bending an optical axis and components for condensing light to ensure an amount of light are in common use to reduce the number of components. Compactness, reduction of the number of components, and integration achieve easy optical axis alignment and precise measurement.Type: GrantFiled: December 22, 2009Date of Patent: March 18, 2014Assignee: Hitachi High-Technologies CorporationInventors: Kunio Harada, Sakuichiro Adachi, Isao Yamazaki
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Patent number: 8654318Abstract: A medical fluid delivery system includes a medical fluid delivery machine including a light source configured to generate a light beam; a polarizer configured to receive the light beam and to allow a portion of the light beam within the medical fluid to be transmitted through the polarizer, a photodetector to provide a measurement of an intensity of the light beam transmitted through a medical fluid and the polarizer; a medical fluid cassette operating with the medical fluid machine to pump the medical fluid, the medical fluid cassette loaded onto the medical fluid delivery machine such that the light source resides on a first side of the cassette and the photodetector resides on a second side of the cassette; and a computer configured to use the measurement of the intensity to determine whether the medical fluid can be delivered to a patient.Type: GrantFiled: January 9, 2012Date of Patent: February 18, 2014Assignees: Baxter International Inc., Baxter Healthcare S.A.Inventor: James S. Slepicka
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Patent number: 8649016Abstract: A system (10) for directly measuring the depth of a high aspect ratio etched feature on a wafer (80) that includes an etched surface (82) and a non-etched surface (84). The system (10) utilizes an infrared reflectometer (12) that in a preferred embodiment includes a swept laser (14), a fiber circulator (16), a photodetector (22) and a combination collimator (18) and an objective lens (20). From the objective lens (20) a focused incident light (23) is produced that is applied to the non-etched surface (84) of the wafer (80). From the wafer (80) is produced a reflected light (25) that is processed through the reflectometer (12) and applied to an ADC (24) where a corresponding digital data signal (29) is produced. The digital data signal (29) is applied to a computer (30) that, in combination with software (32), measures the depth of the etched feature that is then viewed on a display (34).Type: GrantFiled: June 15, 2011Date of Patent: February 11, 2014Assignee: Rudolph Technologies, Inc.Inventors: David S. Marx, David L. Grant
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Patent number: 8643843Abstract: A method for estimating a degree of contamination of a front screen of an optical detection apparatus is provided comprising the steps: Transmitting a plurality (p) of transmission radiation pulses into a detection zone; generating a reception signal for each transmission radiation pulse including a plurality (q) of sampled values, a sampled value indicating the intensity of the received back radiation of the transmission pulse after a predefined time interval from the transmission of the transmission radiation pulse; generating an averaged reception signal having a plurality (q) of sampled values from the plurality of reception signals, with those respective sampled values of the reception signals being added which were determined at mutually corresponding points in time to determine a sampled value of the averaged reception signal; generating at least one front screen contamination value by evaluating an amplitude value and/or a measured peak shape value of the averaged signal.Type: GrantFiled: January 18, 2012Date of Patent: February 4, 2014Assignee: Sick AGInventors: Christian Hulm, Manuel Möhrle