Entries |
Document | Title | Date |
20080291450 | Wavelength Monitoring Method and Apparatus and Method of Making Same - A wavelength of an optical source is monitored by first and second adjacent detectors on a common base. A bulk reflective component has first and second partially reflective surfaces that respectively direct first and second portions of energy from the source to the first and second detectors. A wavelength discriminator is positioned between the first detector and first surface. An optical isolator downstream of the reflective component prevents radiation from the source and exiting the component from being coupled to the detectors and back to the source. | 11-27-2008 |
20090051918 | OPTICAL SAMPLING APPARATUS - Provided is an optical sampling apparatus that samples light to be measured having a pulse waveform, including a sampling light output section that outputs a first sampling light and a second sampling light, both having pulse waveforms of a spectrum different from that of the light to be measured; a first sampling section that includes a first nonlinear optical medium, which causes a nonlinear optical effect by causing at least a portion of the light to be measured and the first sampling light to pass therethrough and outputs light generated by the nonlinear optical effect, and that outputs at least a portion of the light generated by the nonlinear optical effect as a first output light; and a second sampling section that includes a second nonlinear optical medium, which causes a nonlinear optical effect by causing at least a portion of the first output light and the second sampling light to pass therethrough with a temporal overlap in order to output light generated by the nonlinear optical effect, and that outputs at least a portion of the light generated by the nonlinear optical effect as a second output light. | 02-26-2009 |
20090116015 | Analysis of Optical Data with the Aid of Histograms - A system for determining the concentration of an analyte in a liquid sample comprising a detection unit for detecting light intensities which are radiated from subareas of a detection area of a test element as well as an evaluation unit which determines a frequency distribution for the detected light intensities wherein the frequency distribution has at least one first maximum caused by unwetted subareas or at least one reference area and a second maximum caused by wetted subareas and selects at least one light intensity on the basis of the frequency distribution and determines the concentration of the analyte from the at least one selected light intensity. | 05-07-2009 |
20090296092 | Method & apparatus for the stabilization of spectrometric transducers - The invention provides a method for stabilising a spectrometric transducer for an optical spectrum measuring insturument by obtaining an instantaneous central wavelength of a thermally controlled tunable filter of the instrument, calibrating for a selected ambient temperature, determining a heat variance of the filter and controlling the filter to compensate for heat variance. | 12-03-2009 |
20100027010 | VARIABLE SPECTROSCOPY DEVICE - Desired spectral characteristics are attained by making reflection films close enough. A variable spectroscopy device ( | 02-04-2010 |
20100091286 | Filter Design for Colorimetric Measurement - A color detector includes a light source configured to generate light with a spectrum of wavelengths; a plurality of filters in optical communication with the light source, wherein each filter is configured to pass a bandwidth of wavelengths around a different peak wavelength; and a plurality of photodetectors, each configured to receive light passed through a respective filter of the plurality of filters. The bandwidth of each filter is configured to Correspond to a bandwidth of a curve from a set of standard color matching functions. A method for improving color detection accuracy in a color detector includes matching a bandwidth passed by each of a plurality of color filters with a bandwidth and peak wavelength of a Commission Internationale de I'Eclairage (CIE) color matching function; and separately detecting an amount of light passed by each the filter. | 04-15-2010 |
20100201987 | MEASURING APPARATUS AND MEASURING METHOD - A measuring apparatus includes a filter that transmits light of a predetermined wavelength; a first light receiving unit receives at least one of a first light that is output from a first light source, reflected by or transmitted through an object to be measured, and transmitted through the filter and a second light that is output from a second light source, reflected by or transmitted through the object to be measured, and transmitted through the filter, and through which a signal according to the received light travels; a second light receiving unit receives light of a different path from that received by the first light receiving unit, a difference extracting unit that obtains a difference signal between the signals traveling through the first and second light receiving units and an information generating unit that generates information of the object to be measured based on the difference signal. | 08-12-2010 |
20100321694 | COLOR DETECTOR HAVING AREA SCALED PHOTODETECTORS - A color detector includes a light source, a filter, and a photodetector. The photodetector outputs a signal proportional to the amount of a predetermined color of light that passes through the corresponding filter. When used in an array, each filter may have different transmission characteristics, and each color signal may have a different magnitude and/or signal-to-noise ratio. This may be corrected for by adjusting the area of each of the photodetectors and corresponding filters. In other words, the areas if the photodetectors may be configured to equalize the color signal of a reference color and thereby maximize the signal-to-noise ratio of the color signals the sensor is intended to measure. The area of the photodetector may be based on a response curve of the photodetector as a function of wavelength, a response curve of the filter as a function of wavelength, and the amount of light as a function of wavelength generated by the light source, among other factors. | 12-23-2010 |
20110043804 | MATERIAL ANALYSIS DEVICE BASED ON EDGE-EMITTER SEMICONDUCTOR LASER CHRYSTAL, AND ASSICIATED ANALYSIS TOOL - An edge-emitter semiconductor laser crystal having a receptacle for sample material which can influence the crystal's laser operation. There may be separate zones of laser action within the crystal, creating respective sensing zones in the receptacle. Detection may be achieved by providing photo-diode regions within the crystal, for example. | 02-24-2011 |
20110080587 | Method and Apparatus for the Stabilization of Spectrometric Transducers - The invention provides a method for stabilising a spectrometric transducer for an optical spectrum measuring instrument by obtaining an instantaneous central wavelength of a thermally controlled tunable filter of the instrument, calibrating for a selected ambient temperature, determining a heat variance of the filter and controlling the filter to compensate for heat variance. | 04-07-2011 |
20110141472 | MONITORING LIGHT COMING FROM DIFFERENT AREAS | 06-16-2011 |
20120019827 | INTERFERENCE FILTER, OPTICAL MODULE, AND ANALYZING DEVICE - An interference filter is provided in which a fixed mirror and a movable mirror of the interference filter are selected from an Ag—Au alloy film, an Ag—Cu alloy film, an Ag—Au—Cu alloy film, an Ag—Si—Cu alloy film, an Ag—P—Cu alloy film, an Ag—P—In—Cu alloy film, an Ag—Te—Cu alloy film, an Ag—Ga—Cu alloy film, and an Ag—In—Sn alloy film. | 01-26-2012 |
20120147373 | OPTICAL UNIT - An optical unit is provided with a filter member ( | 06-14-2012 |
20120188546 | Method and Apparatus for the Stabilization of Spectrometric Transducers - The invention provides a method for stabilising a spectrometric transducer for an optical spectrum measuring instrument by obtaining an instantaneous central wavelength of a thermally controlled tunable filter of the instrument, calibrating for a selected ambient temperature, determining a heat variance of the filter and controlling the filter to compensate for heat variance | 07-26-2012 |
20120242991 | APPARATUS, SYSTEM AND METHOD FOR SCANNING MONOCHROMATOR AND DIODE ARRAY SPECTROMETER INSTRUMENTATION - A system and method for determining bias in a spectrometer is described. One embodiment includes a method for determining bias in a spectrometer system, the method comprising over-scanning a grating in a near-zero-response wavelength range; and determining a bias based on the over-scanning. This methodology allows for over-scanning a grating in a near-zero-response wavelength range as a substitute for using shutters or other mechanisms to block light from entering a detector in the system. | 09-27-2012 |
20120281216 | APPARATUS AND METHOD FOR INCREASING COLLECTION EFFICIENCY IN CAPILLARY BASED FLOWCYTOMETRY - In a particle analyzing apparatus including a capillary for passing through a fluid containing particles to be analyzed, an optical system is employed to collect fluorescent light emitted from particles or substances labeled to the particles with improved collection efficiency preserving resolution of the instrument. The optical system may include a first collection lens attached to the capillary and a first reflection element arranged adjacent to the first collection lens configured to reflect fluorescent light of one or more wavelengths. The optical system may include a second collection lens attached to the capillary and a second reflection element arranged adjacent to the second collection lens configured to reflect fluorescent light of one or more wavelengths. | 11-08-2012 |
20120293803 | SPECTRAL ESTIMATION PARAMETER GENERATION DEVICE, METHOD OF GENERATING SPECTRAL ESTIMATION PARAMETER, AND SPECTRAL ESTIMATION DEVICE - A device measures a spectral distribution with respect to each of a plurality of color charts, sets default values to band specification data, and computes a camera output signal based on spectral sensitivity of the multiband camera and spectral feature of light from each of the plurality of charts. The device computes a candidate value of a spectral estimation parameter from the measured spectral distribution of each color chart and the computed camera output signal. The device successively varies the band specification data from the default values to make an evaluation function approach a target value, determines a spectral estimation parameter corresponding to the band specification data when the evaluation function reaches the target value. The evaluation function is defined to correlate the measured spectral distribution of each color chart to a spectral estimation value computed from the candidate value of the spectral estimation parameter and the camera output signal. | 11-22-2012 |
20130021611 | Measuring Optical System, And Color Luminance Meter and Colorimeter using the Same - In a measuring probe ( | 01-24-2013 |
20130038876 | VARIABLE WAVELENGTH INTERFERENCE FILTER, OPTICAL MODULE, OPTICAL ANALYSIS DEVICE, AND METHOD FOR MANUFACTURING VARIABLE WAVELENGTH INTERFERENCE FILTER - A variable wavelength interference filter includes a first substrate having a fixed mirror, a second substrate bonded to the first substrate and having a movable portion and a movable mirror fixed to the movable portion, a third substrate bonded to the second substrate on the side opposite to the first substrate, and an electrostatic actuator which displaces the movable portion in a substrate thickness direction, wherein a penetration hole connecting a light exiting-side space between the first substrate and the second substrate and a light incident-side space between the second substrate and the third substrate to a space outside the filter is formed, and the penetration hole is sealed with a sealant which tightly closes each space in a reduced-pressure state. | 02-14-2013 |
20130057865 | APPARATUS AND METHOD FOR MEASURING AN ANALYTE SUCH AS BILIRUBIN, USING LIGHT - An analyte measuring device ( | 03-07-2013 |
20130070247 | SPECTROSCOPIC MEASUREMENT DEVICE, AND SPECTROSCOPIC MEASUREMENT METHOD - A spectroscopic measurement device includes a variable wavelength interference filter having a stationary reflecting film, a movable reflecting film, and an electrostatic actuator adapted to vary the gap amount of the inter-reflecting film gap in accordance with a voltage applied thereto, a detector adapted to detect the light intensity of the light, and a control circuit section adapted to measure the dispersion spectrum of the measurement object light, the control circuit section includes a peak detection section adapted to detect a peak-corresponding gap amount, a filter drive section that varies the gap amount to the constant interval gap amounts and the peak-corresponding gap amount in a stepwise manner, and a spectroscopic measurement section that obtains the light intensities corresponding respectively to the constant interval gap amounts and the peak-corresponding gap amount. | 03-21-2013 |
20130107262 | SPECTROPHOTOMETER | 05-02-2013 |
20130114083 | SPECTROSCOPIC MEASUREMENT APPARATUS - A spectroscopic measurement apparatus includes: a wavelength tunable interference filter including a fixed substrate having a fixed reflection film, a movable substrate having a movable reflection film, and an electrostatic actuator that changes a gap value of an inter-reflection-film gap by applying a voltage to bend the movable substrate; a detector that detects a light level; and a controller that measures a spectral characteristic of light under measurement. The controller includes a filter driver that applies a drive voltage to the electrostatic actuator to change the inter-reflection-film gap, a detected light level acquisition unit that acquires light levels detected by the detector, and a target light level acquisition unit that acquires a light level corresponding to an oscillation center of the movable substrate as a target light level based on how the detected light level transitions and a natural oscillation cycle that the movable substrate has. | 05-09-2013 |
20130162999 | Classification Using Multivariate Optical Computing - Methods for in situ detection and classification of analyte within a fluid sample are provided. In one embodiment, the method can include: (a) continuously flowing the fluid sample through a multivariate optical computing device, wherein the multivariate optical computing device illuminates an area of the fluid sample as it flows through the multivariate optical computing device to elicit a continuous series of spectral responses; (b) continuously measuring the series of multivariate spectral responses as the fluid sample flows through the multivariate optical computing device; (c) detecting an analyte (e.g., phytoplankton) in the sample based on an multivariate spectral response of the plurality of spectral responses; and (d) classifying the analyte based on the multivariate spectral response generated by the analyte. | 06-27-2013 |
20130176568 | Conformal Filter and Method for Use Thereof - A system and method for detecting analytes using a conformal filter. A conformal filter, which may comprise a tunable filter, is configured to filter interacted photons conforming to a spectral shape correlated with an analyte of interest. Conformal filter configurations may he selected by consulting a modified look-up table associated with an analyte. An iterative methodology may be used to calibrate a conformal design for an analyte of interest, refine a previous conformal filter design for an analyte of interest, and/or generate a new conformal filter design for an analyte of interest. | 07-11-2013 |
20130201483 | METHOD AND APPARATUS FOR TESTING LIGHT-EMITTING DEVICE - Disclosed is a method for testing a light-emitting device comprising the steps of: providing a light-emitting device comprising a plurality of light-emitting diodes; driving the plurality of the light-emitting diodes with current; generating an image of the light-emitting device; and determining a luminous intensity of each of the light-emitting diodes with the image. An apparatus for testing a light-emitting device comprising a plurality of light-emitting diodes is also disclosed. The apparatus comprises: a current source to provide a current to drive the plurality of the light-emitting diodes; an image receiving device for receiving an image of the light-emitting device in the driven state; and a processing unit for determining a luminous intensity of each of the light-emitting diodes with the image. | 08-08-2013 |
20130271766 | ADAPTIVE MULTISPECTRAL IMAGING - A method for multispectral imaging that includes positioning a continuously graded color filter in front of a plurality of detectors. Wavelengths of energy passed by the filter vary smoothly along the filter length and the detectors are configured in a pattern having a plurality of rows each having a plurality of detectors. Each of the plurality of rows is oriented across the length of the filter. The method also includes measuring outputs of the detectors in response to moving an image along the length of the filter and generating a spectrum response function for the image based on the outputs of two or more rows of the detectors using a time delayed integration method. | 10-17-2013 |
20130321813 | System and Method for Assessing Tissue Oxygenation Using a Conformal Filter - A portable system and method for analyzing biological tissue samples and detecting analytes associated with tissue oxygenation using a conformal filter. A conformal filter, which may comprise a tunable filter, is configured to filter interacted photons conforming to a spectral shape correlated with an analyte of interest. Conformal filter configurations may be selected by consulting a modified look-up table associated with an analyte. An iterative methodology may be used to calibrate a conformal design for an analyte of interest, refine a previous conformal filter design for an analyte of interest, and/or generate a new conformal filter design for an analyte of interest. | 12-05-2013 |
20140022549 | SPECTROMETER - Provided is a spectrometer capable of separating a particular wavelength component from light including a plurality of wavelength components by means of a small, simple configuration. The spectrometer comprises a filter part configured to transmit a specific wavelength component of light incident onto an incident surface. An illuminating means is configured to cause the light to be incident at respectively different incident angles onto a plurality of incident positions at different positions in the longer direction of the incident surface. | 01-23-2014 |
20140063501 | VARIABLE WAVELENGTH INTERFERENCE FILTER, OPTICAL MODULE, ELECTRONIC APPARATUS, AND METHOD OF MANUFACTURING VARIABLE WAVELENGTH INTERFERENCE FILTER - A variable wavelength interference filter includes a first substrate having a stationary mirror, a second substrate bonded to the first substrate and provided with a movable section and a movable mirror fixed to the movable section, and a third substrate bonded to the second substrate on an opposite side to the first substrate, and is provided with a first inner space sandwiched by the first substrate and the second substrate, a first gap, through which the first inner space communicates with the outside, a second inner space sandwiched by the second substrate and the third substrate, and a second gap, through which the second inner space communicates with the outside, and the first gap and the second gap are each sealed by a sealing member. | 03-06-2014 |
20140071450 | Wavelength-Tunable Detector For Label-Independent Optical Reader - A wavelength-tunable detector for use in a label-independent optical reader for reading at least one resonant waveguide grating (RWG) biosensor is disclosed. The wavelength-tunable detector includes a tunable wavelength filter. Broadband light is made incident upon the RWG biosensor to produce resonantly reflected light, which is then passed through the tunable wavelength filter whose central wavelength is adjusted, such as by varying the filter angle of the tunable wavelength filter. This generates filtered resonantly reflected light, which is detected by a photodetector that generates an electrical signal in response thereto. The electrical signal is representative of the detected spectrum, which includes the center resonant wavelength of the RWG biosensor. A controller can be used to determine the center resonant wavelength from the electrical signal. | 03-13-2014 |
20140071451 | SYSTEM AND METHOD FOR OPTICAL MEASUREMENT OF A TARGET AT MULTIPLE POSITIONS - The invention relates to a system and a method for optical measurement of a target, wherein the target is illuminated, either actively illuminated, reflecting ambient light, or self illuminating, and a measurement radiation beam received from the target or through it is detected. The measurement system has optical fibres for guiding radiation from/to target positions. Radiation of several target positions is simultaneously filtered by a Fabry-Perot interferometer and detected by a row detector, for example. | 03-13-2014 |
20140078503 | SPECTROSCOPE, WAVELENGTH VARIABLE INTERFERENCE FILTER, OPTICAL FILTER DEVICE, OPTICAL MODULE, AND ELECTRONIC DEVICE - A spectrometer includes a first reflective film, a second reflective film facing the first reflective film with a gap interposed therebetween, a gap change portion that changes the amount of the gap by changing the relative position of the second reflective film with respect to the first reflective film, and a processing unit that outputs optical characteristic data at a predetermined first wavelength interval on the basis of light of a plurality of the wavelengths to be measured which are extracted by the first reflective film and the second reflective film by changing the gap amount using the gap change portion, wherein a full width at half maximum of a spectrum of at least one component of light among the light of the plurality of wavelengths to be measured which are extracted by the first reflective film and the second reflective film is larger than the first wavelength interval. | 03-20-2014 |
20140160478 | METHOD AND SYSTEM FOR CORRECTING MEASUREMENT DIFFERENCE OF TRANSMITTANCE FREQUENCY SPECTRUM OF COLOR FILTER - The present disclosure provides a method for correcting a measurement deviation of a transmittance frequency spectrum of a color filter. With the standard measuring data of transmittance frequency spectrum of the color filter, based on the deviation between the standard measuring data and the instantaneous measuring data of the transmittance frequency spectrum, the measurement of the transmittance frequency spectrum can be corrected automatically, which reduces the time of the transferring of the glass, analysis of the data, and manual correcting, reduces the labor, improves the utilization rate and productivity of the machine. The present disclosure further provides a system correcting a measurement deviation of transmittance frequency spectrum of a color filter. | 06-12-2014 |
20140204383 | On-line, Continuous Monitoring in Solar Cell and Fuel Cell Manufacturing Using Spectral Reflectance Imaging - A monitoring system | 07-24-2014 |
20140218735 | COLORIMETRY METHOD AND COLORIMETRY APPARATUS - An imaging section that detects the amount of light separated by a wavelength tunable interference filter to acquire a spectroscopic image (imaging device and light amount acquisition section) detects the amount of light successively separated for three wavelengths to acquire spectroscopic images for producing a combined image. A display controller causes a display section to display a combined image based on the spectroscopic images for producing the combined image. A specified position detection section identifies based on user's operation a specified position where a colorimetry result is to be outputted. The imaging section detects the amount of light successively separated for a plurality of wavelengths by the wavelength tunable interference filter to acquire spectroscopic images for colorimetry corresponding to the plurality of wavelengths. A colorimetry section measures the color in the specified position by using the amount of light obtained from each of the spectroscopic images for colorimetry. | 08-07-2014 |
20140218736 | SYSTEM AND METHOD FOR OPTICAL MEASUREMENT OF A TARGET - The invention relates to a system and a method for optical measurement of a target, wherein the target is illuminated, either actively illuminated, reflecting ambient light, or self illuminating, and a measurement light beam received from the target or through it is detected. The prior art optical measurement systems generally include mechanical filter wheels and photomultiplier tubes, which cause the equipment to be expensive, large-sized and often not sufficiently accurate and stable. The objective of the invention is achieved with a solution, in which the illuminating light beam and/or measurement light beam is led through a Fabry-Perot interferometer or a set of two or more Fabry-Perot Interferometers, and the pass band of the Fabry-Perot interferometer or a set of two or more Fabry-Perot Interferometers is controlled during the measurement of a single target. The invention can be applied in optical measurements where, for example, reflectance, absorption of fluorescence of the target is measured. | 08-07-2014 |
20140253921 | SPECTROSCOPIC SYSTEMS AND METHODS - The present invention provides a spectroscopic system having a first tunable filter module, a second tunable filter module, an optical detector and a signal processing unit. The first tunable filter module includes a first tunable filter and corresponding control unit. The second tunable filter module includes a second tunable filter and corresponding control unit. The second tunable filter is configured in series with the first tunable filter, and the second tunable filter is selected so that the free spectral range of the second tunable filter matches the half-peak width of the first tunable filter. The optical detector is configured to receive wide wavelength bands of electromagnetic radiation transmitted through the first tunable filter and the second tunable filter and to generate one or more electrical signals indicative of electromagnetic radiation intensity as a function of wavelength. | 09-11-2014 |
20140268155 | AWG Filter for Wavelength Interrogator - A wavelength interrogator is coupled to a circulator which couples optical energy from a broadband source to an optical fiber having a plurality of sensors, each sensor reflecting optical energy at a unique wavelength and directing the reflected optical energy to an AWG. The AWG has a detector coupled to each output, and the reflected optical energy from each grating is coupled to the skirt edge response of the AWG such that the adjacent channel responses form a complementary pair response. The complementary pair response is used to convert an AWG skirt response to a wavelength. | 09-18-2014 |
20140285807 | WAVELENGTH MONITOR AND WAVELENGTH MONITORING METHOD - The transmittance of a filter periodically varies with respect to the incident light frequency. Provided that f | 09-25-2014 |
20140320858 | LOW-COST SPECTROMETRY SYSTEM FOR END-USER FOOD ANALYSIS - A compact spectrometer is disclosed that is suitable for use in mobile devices such as cellular telephones. In preferred embodiments, the spectrometer comprises a filter, at least one Fourier transform focusing element, a micro-lens array, and a detector, but does not use any dispersive elements. Methods for using the spectrometer as an end-user device for performing on-site determinations of food quality, in particular, by comparison with an updatable database accessible by all users of the device, are also disclosed. | 10-30-2014 |
20140333932 | SPECTROSCOPIC SENSOR DEVICE AND ELECTRONIC EQUIPMENT - A spectroscopic sensor that applies lights in a wavelength band containing plural wavelengths to an object and spectroscopically separates reflected lights or transmitted lights from the object using plural light band-pass filters that transmit the respective specific wavelengths and plural photosensor parts to which corresponding transmitted lights are input based on output results of independent photosensors. The spectroscopic sensor may be integrated in a semiconductor device or module by integration using a semiconductor process and downsizing may be realized. | 11-13-2014 |
20140354996 | TUNABLE ELECTRO-OPTIC FILTER STACK - A holographic polymer dispersed liquid crystal (HPDLC) tunable filter exhibits switching times of no more than 20 microseconds. The HPDLC tunable filter can be utilized in a variety of applications. An HPDLC tunable filter stack can be utilized in a hyperspectral imaging system capable of spectrally multiplexing hyperspectral imaging data acquired while the hyperspectral imaging system is airborne. HPDLC tunable filter stacks can be utilized in high speed switchable optical shielding systems, for example as a coating for a visor or an aircraft canopy. These HPDLC tunable filter stacks can be fabricated using a spin coating apparatus and associated fabrication methods. | 12-04-2014 |
20140375996 | LIGHT MEASUREMENT DEVICE WITH IDENTIFIABLE DETECTION ELEMENTS - A light measurement device comprising an optical sensor that includes a tunable interference filter and a detecting section detecting light passed through the tunable filter, a storing section that stores a first correlation data and a second correlation data, and a CPU that obtains amount of the light by controlling the optical sensor based on the first correlation data and a second correlation data. | 12-25-2014 |
20150346107 | INSPECTING APPARATUS FOR INSPECTING A MULTILAYER STRUCTURE - An inspecting apparatus includes: a stage including a top surface on which a multilayer structure comprising a first layer and a second layer is placed; a first light irradiation unit which faces a first side surface of the multilayer structure and provides light to a first side surface of the first layer or a first side surface of the second layer; an image capture unit which is on the stage, receives scattered light from the multilayer structure and generates image information of the multilayer structure from the received scattered light, and a control unit which detects foreign body information of the multilayer structure based on the image information of the multilayer structure. The scattered light comprises the light which is provided from the first light irradiation unit and is scattered within the multilayer structure. | 12-03-2015 |
20150369043 | FLUID ANALYSIS SYSTEM WITH INTEGRATED COMPUTATION ELEMENT FORMED USING ATOMIC LAYER DEPOSITION - Fluid analysis systems with Integrated Computation Elements (ICEs) or other optical path components formed using atomic layer deposition (ALD) enables improved tolerances and design flexibility. In some of the disclosed embodiments, a fluid analysis system includes a light source and an ICE. The fluid analysis system also includes a detector that converts optical signals to electrical signals. The ICE comprises a plurality of optical layers, where at least one of the plurality of optical layers is formed using ALD. A related method includes selecting an ICE design having a plurality of optical layers. The method also includes forming at least one of the plurality of optical layers of the ICE using ALD to enable prediction of a chemical or physical property of a substance. A related logging string includes a logging tool section and a fluid analysis tool associated with the logging tool section. The fluid analysis tool includes an ICE with at least one optical layer formed using ALD. | 12-24-2015 |
20160003991 | SPECTROSCOPIC SENSOR AND ANGLE LIMITING FILTER - An angle limiting filter includes: a first light-shielding layer containing a first light-shielding material and provided with a first opening; a second light-shielding layer containing a second light-shielding material and located in a region which surrounds at least one portion of the first light-shielding layer; a third light-shielding layer containing the first light-shielding material, provided with a second opening at least one portion of which overlaps the first opening, and located above the first light-shielding layer; and a fourth light-shielding layer containing the second light-shielding material and located above the second light-shielding layer in a region which surrounds at least one portion of the third light-shielding layer. | 01-07-2016 |
20160069743 | SPECTRAL IMAGING SYSTEM FOR REMOTE AND NONINVASIVE DETECTION OF TARGET SUBSTANCES USING SPECTRAL FILTER ARRAYS AND IMAGE CAPTURE ARRAYS - An approach to noninvasively and remotely detect the presence, location, and/or quantity of a target substance in a scene via a spectral imaging system comprising a spectral filter array and image capture array. For a chosen target substance, a spectral filter array is provided that is sensitive to selected wavelengths characterizing the electromagnetic spectrum of the target substance. Elements of the image capture array are optically aligned with elements of the spectral filter array to simultaneously capture spectrally filtered images. These filtered images identify the spectrum of the target substance. Program instructions analyze the acquired images to compute information about the target substance throughout the scene. A color-coded output image may be displayed on a smartphone or computing device to indicate spatial and quantitative information about the detected target substance. The system desirably includes a library of interchangeable spectral filter arrays, each sensitive to one or more target substances. | 03-10-2016 |
20160103069 | A METHOD AND AN APPARATUS FOR OBTAINING SAMPLE SPECIFIC SIGNATURES - The invention provides a method for obtaining sample specific signatures. The method comprises of irradiating the sample at a predefined location with an electromagnetic radiation of specific wavelength; selectively capturing a certain component of the scattered electromagnetic radiation to obtain a plurality of profiles; and filtering the profiles to obtain a sample specific signature. The invention provides an apparatus for obtaining sample specific signatures. | 04-14-2016 |
20160109290 | Diagnostic for Spectrally Combined Laser - A diagnostic unit is used to align and focus individual laser sources in a spectral beam combining (SBC) laser. The diagnostic unit modifies a Shack-Hartmann wavefront sensor to dedicate one or more microlenses to a particular wavelength of the SBC laser using wavelength-specific filters in combination with corresponding microlenses. The diagnostic unit allows all of the laser sources to be evaluated at the same time because each wavelength has a dedicated portion of the sensor, typically a charge-coupled display. When an individual beam is centered in its dedicated portion of the sensor and has an acceptable spot size or intensity, the source for that particular beam is correctly aligned and focused. Off-center or incorrect spot-sized beams indicate incorrect alignment and focus for the laser source for that wavelength. When correctly calibrated, the sensor output can also be used to measure and correct power output levels of the individual laser sources. | 04-21-2016 |
20160109381 | MULTIPLE ANGLE COMPUTATIONAL WAFER INSPECTION - A system and method for inspecting a surface, comprising: illuminating a region of said surface, with said region having an aspect ratio larger than unity; capturing an image of scattered radiation originating from said region; and computing electromagnetic field of said scattered radiation from said image of scattered radiation and generating an image of region by computational propagation of said electromagnetic field through a predetermined distance, whereby features of said region are captured in said image of region. | 04-21-2016 |
20160138975 | IMAGING APPARATUS COMPRISING CODING ELEMENT AND SPECTROSCOPIC SYSTEM COMPRISING THE IMAGING APPARATUS - An imaging apparatus according to an aspect of the present disclosure includes a first coding element that includes regions arrayed two-dimensionally in an optical path of light incident from an object, and an image sensor. Each of the regions includes first and second regions. A wavelength distribution of an optical transmittance of the first region has a maximum in each of first and second wavelength bands, and a wavelength distribution of an optical transmittance of the second region has a maximum in each of third and fourth wavelength bands. At least one selected from the group of the first and second wavelength bands differs from the third and fourth wavelength bands. The image sensor acquires an image in which components of the first, second, third and fourth wavelength bands of the light that has passed through the first coding element are superimposed on one another. | 05-19-2016 |
20160139296 | INTEGRATED COMPUTATIONAL ELEMENTS WITH LATERALLY-DISTRIBUTED SPECTRAL FILTERS - Technologies for providing optical analysis systems using an integrated computational element with laterally-distributed spectral filters are described. A measurement tool contains an optical element including a substrate and a plurality of spectral filters supported by the substrate and arranged at different lateral positions with respect to a path of light to be received from a sample during operation of the measurement tool. Each spectral filter is formed to transmit or reflect a different subset of wavelengths in a wavelength range. Additionally, each spectral filter has a respective area exposed to the light from the sample, such that the respective areas are related to a property of the sample. The wavelength range can include wavelengths in a range from about 0.2 μm to about 25 μm. Additionally, the sample can include wellbore fluids and the property of the sample is a property of the well-bore fluids. | 05-19-2016 |
20160178506 | Photothermal Conversion Spectroscopic Analyzer | 06-23-2016 |
20160377483 | COLOR DIFFERENCE METER MODULE CAPABLE OF PERFORMING REAL-TIME ZERO POINT ADJUSTMENT AND COLOR MEASURING DEVICE USING SAME - A color measuring device includes a color difference meter module. The color difference meter module includes: a main detecting unit having an optical detecting unit configured to receive light introduced from an incident lens to generate a first current depending on a color, a first measuring unit configured to measure the first current, a sub-detecting unit having a dark detecting unit disposed adjacent to the main detecting unit and blocking the light to generate a second current in a dark state, a second measuring unit configured to measure the second current, a leakage measuring unit including a charging unit provided in the second measuring unit and charged with a predetermined set current, and measures a third current leaking from the charging unit, and a control unit that corrects the first current by reflecting the second current and the third current. | 12-29-2016 |
20180023943 | OPTICAL APPARATUSES AND METHOD OF COLLECTING THREE DIMENSIONAL INFORMATION OF AN OBJECT | 01-25-2018 |
20180024004 | TUNABLE ELECTRO-OPTIC FILTER STACK | 01-25-2018 |