| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 356128000 | REFRACTION TESTING (E.G., REFRACTOMETERS) | 85 |
| 20080204730 | Method and System for Improving Accuracy of Critical Dimension Metrology - A method for improving accuracy of optical critical dimension measurement of a substrate is provided. A process parameter that influences the refractive index and extinction coefficient of a thin film in the substrate is identified. A refractive index and extinction coefficient across a plurality of wavelengths as a function of the process parameter is identified. During the regression modeling of the optical critical dimension measurement, the refractive index and extinction coefficient across the plurality of wavelengths is adjusted through the function via the process parameter. | 08-28-2008 |
| 20080239299 | CRDS MIRROR FOR NORMAL INCIDENCE FIBER OPTIC COUPLING - A cavity ring-down sensor having an optical path of mirrors and an interface proximate to a mirror with a normal incidence optical fiber coupling. The interface may be a block of transmissive materials having different indices of refraction for receiving a light beam of normal incidence from an optical fiber and directing the beam into the optical path. The sensor may be used applications where the optical fiber needs to be straight into the sensor without unusual bending because of space limitations. One application of this sensor may be for ground water testing via a narrow well casing. | 10-02-2008 |
| 20080278713 | Method for identifying refractive-index fluctuations of a target - Systems and methods for identifying refractive-index fluctuations of a target are described in this application. One embodiment includes identifying one or more properties of emergent light, the emergent light to be emergent from a target, and determining refractive-index fluctuations of the target based on the one or more properties of the emergent light. The determining refractive-index fluctuations further comprises determining one or more of the variance of the refractive-index fluctuations and the spatial correlation length of the refractive-index fluctuations. The determining refractive-index fluctuations further comprises determining one or more of the variance of the refractive-index fluctuations and the spatial correlation length of the refractive-index fluctuations. | 11-13-2008 |
| 20090021727 | DEVICE AND METHOD FOR DETECTING CHANGES IN THE REFRACTIVE INDEX OF A DIELECTRIC MEDIUM - The device for detecting changes in the refractive index of a dielectric medium comprises: at least one metallic layer ( | 01-22-2009 |
| 20090097016 | CULTURE VESSEL AND CELLULAR THICKNESS MEASUREMENT METHOD - To enable precise measurement of a cellular thickness distribution regardless of changes in the refractive index of a culture solution with the progress of culture. There is provides a culture vessel made of a transparent material with a culture surface capable of culturing cells in an adhesive manner on the bottom face, wherein a reference substance having an already known refractive index and an already known thickness dimension is fixed to a part of the culture surface. | 04-16-2009 |
| 20090116001 | Equipment and Method for Monitoring an Immersion Lithography Device - The invention concerns an equipment for monitoring an immersion lithography device provided with a main light source and a projection optics for printing images on a wafer. The propagating medium extending from the projection optics to the wafer consists of a liquid ( | 05-07-2009 |
| 20090122300 | OPTICAL REFRACTOMETER FOR MEASURING SEAWATER SALINITY AND CORRESPONDING SALINITY SENSOR - An optical refractometer is provided for measuring the refractive index of a liquid. Such a refractometer includes a first optical block having a transparent material whereto is secured a light source, a second optical block having a transparent material whereto is secured a position sensor. The optical blocks are arranged on either side of a conduit wherein the liquid flows. | 05-14-2009 |
| 20090153843 | REFRACTIVE-INDEX SENSOR - An exemplary refractive-index sensor includes a photonic crystal microcavity structure, a light source, and a detector. The photonic crystal microcavity structure includes a photonic crystal layer having first holes and a second hole defined therein. The first holes are arranged in a regular pattern of staggered parallel rows. The second hole is at an approximate center of the regular pattern, instead of a first hole. A diameter of the second hole is different from that of the first holes. The first holes at each of opposite ends of the row having the second hole are omitted, thereby defining an input waveguide and an output waveguide. The light source is adjacent to the input waveguide. The detector is adjacent to the output waveguide. | 06-18-2009 |
| 20090153844 | MEMS tunable silicon fabry-perot cavity and applications thereof - A method for fabricating a tunable Fabry-Perot cavity comprises etching a substrate to form two reflectors separated by an air gap and an electrostatic mechanism. One of the two reflectors is mobile and connected to the electrostatic mechanism. Therefore, operation of the electrostatic mechanism moves the mobile reflector to change the thickness of the air gap and thereby tune the Fabry-Perot cavity. A tunable Fabry-Perot cavity fabricated with the above method comprises: a substrate; two reflectors formed in the substrate and separated by an air gap having a thickness, wherein one of the two reflectors is mobile; and an electrostatic mechanism formed in the substrate and connected to the mobile reflector. The mobile reflector connected to the electrostatic mechanism is moved upon operation of the electrostatic mechanism to change the thickness of the air gap and thereby tune the Fabry-Perot cavity. Applications of the Fabry-Perot cavity may comprise a tunable doped fiber laser, a tunable dispersion compensator and an integrated microfluidic refractometer. | 06-18-2009 |
| 20090296076 | Negatively-refractive focusing and sensing apparatus, methods, and systems - Apparatus, methods, and systems provide negatively-refractive focusing and sensing of electromagnetic energy. In some approaches the negatively-refractive focusing includes providing an interior focusing region with an axial magnification substantially greater than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
| 20090296077 | Negatively-refractive focusing and sensing apparatus, methods, and systems - Apparatus, methods, and systems provide negatively-refractive focusing and sensing of electromagnetic energy. In some approaches the negatively-refractive focusing includes providing an interior focusing region with an axial magnification substantially less than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
| 20090303466 | APPARATUS FOR DETECTING PROPRETIES OF FUEL FOR WORKING MACHINE - An apparatus for detecting a property of fuel detects the property of fuel at the time of fuel supply. A measuring chamber member is provided to a fuel tank. The greater portion of fuel supplied from a fuel supply nozzle falls down from a fuel supply aperture via a flow outlet into the fuel tank. However, a part of the fuel remains in a measuring space defined between a portion below the flow outlet and a bottom portion. A fuel property detection sensor is fitted to a main body so as to oppose the measuring space. When application of a cap to the fuel supply aperture has been detected by a fuel supply cap sensor, if increase of the remaining fuel amount has been detected by a remaining fuel amount sensor, or if the engine is started, a controller measures the property of the fuel with the fuel property detection sensor. | 12-10-2009 |
| 20100014073 | OPTICAL ELEMENT, REFRACTIVE INDEX SENSOR, REFRACTIVE INDEX SENSOR ARRAY, AND BIOSENSOR - An optical element for resonating and reflecting incident light having a wavelength includes a periodic structure formed of protrusions and recessions. A period of the periodic structure is equal to or less than the wavelength of the incident light. The incident light having the wavelength is resonated and reflected by a resonance caused between the incident light and the protrusions and recessions. Widths of the protrusions are spatially changed. | 01-21-2010 |
| 20100033712 | Emitting and negatively-refractive focusing apparatus, methods, and systems - Apparatus, methods, and systems provide emitting and negatively-refractive focusing of electromagnetic energy. In some approaches the negatively-refractive focusing includes negatively-refractive focusing from an interior field region with an axial magnification substantially greaters than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 02-11-2010 |
| 20100149523 | Optical Chemical Detector and Method - An apparatus and method for optically detecting the presence of an analyte in a solution is presented. An embodiment comprises a waveguide resonator that is optically coupled to a fluid in a fluidic conduit so that the resonant wavelength of the waveguide resonator is based on the refractive index of the fluid. | 06-17-2010 |
| 20100171946 | MICROSCOPE AND METHOD FOR TOTAL INTERNAL REFLECTION-MICROSCOPY - A microscope for total internal reflection microscopy. The microscope includes at least one light source configured to provide an illumination light to an illumination beam path for an evanescent illumination of a specimen so as to reflect the illumination light at an interface to the specimen or a specimen cover so as to return reflection light into the illumination beam path, an objective through which the illumination light and detection light are directable, a detection device, and a coupling device. The coupling device includes a mirror disposed in the illumination beam path. The mirror has a reflecting surface and a hole, the hole being configured to pass the illumination light there through so as to couple the illumination light into the illumination beam path. The reflecting surface is configured to couple out at least a part of the reflection light and to direct the coupled-out reflection light to the detection devices so as to enable determination from a beam pat of the coupled-out reflection light, at least one of a quantifiable parameter and a qualifiable parameter of at least one of the evanescent illumination and an evanescent field created in the specimen. | 07-08-2010 |
| 20100208243 | OPTICAL SENSING SYSTEM FOR LIQUID FUELS - The present invention relates to a thermally compensated optical sensing system for identifying various types of liquid fuels and/or the ratio in liquid fuel mixtures on real time. In this system, an optical fiber is used as a light guide and a sensor device for determining the refractive index of liquid fuels through the principle of reflectivity. Starting from a light source, light is transmitted interiorly of the optical fiber to the test probe which is in contact with the fuel. The optical signal resulting from the interaction between light and fuel is a function of refractive indexes of the optical fiber and the fuel, the wavelength of light used, and the fuel temperature. The system proposed herein relates to the use of this optical system in liquid fuels by using optical fibers having suitable refractive indexes as a function of the fuel type and/or fuel mixture being analyzed, allowing the sensitivity of the optical system to be optimized according to application requirements. | 08-19-2010 |
| 20100214558 | Inspection instrument - An inspection instrument includes main unit, Brix testing unit, weight measurement unit, display unit, control unit, and label printer; both of Brix and weight of an object pending test are tested and measured at the same time by the Brix testing unit and the weight measurement unit; resultant data are directly displayed on the inspection instrument by the display unit; data are directly printed on a label; and the label is outputted to be directly attached to the fruit. | 08-26-2010 |
| 20100220318 | Waveguide With Integrated Lens - A sample can be illuminated for analysis using apparatus including a light source, a planar waveguide, and a refractive volume. The light source provides light along a propagation vector. The planar waveguide is oriented such that the propagation vector is perpendicular to the normal vector of the planar waveguide and offset from the planar waveguide in a direction parallel to the normal vector of the planar waveguide. The refractive volume is positioned proximate to the planar waveguide and can optically coupling light provided by the light source to the planar waveguide. | 09-02-2010 |
| 20100245805 | Methods of Measuring The Refractive Index Profile of a Transparent Cylindrical Object - Methods of measuring the refractive index profile of a transparent cylindrical object, such as a fiber preform, are disclosed. The methods include transmitting light rays through the cylindrical object in a direction transverse to the central axis at different heights and measuring the deflection angles to define a measured deflection function ψ | 09-30-2010 |
| 20100296080 | OPTICAL FIBER SENSOR - An objective of the present invention is to provide an optical fiber sensor which has a simple configuration to enable sensitively measuring a refractive index of a measurement medium in a wide range of refractive indexes. An optical fiber sensor according to the present invention includes; an optical fiber having a core in which a short-period gratings are formed and a cladding, the optical fiber being made so that transmission loss occurs due to cladding-propagation-mode leakage at its cladding portion where the short-period gratings are formed; a light source from which light having a wavelength range of the cladding propagation mode is emitted; and a light receiving unit for receiving transmission or reflection light having passed through the cladding at the position where the short-period gratings are formed. The optical fiber sensor detects, based on the total receiving light intensity that the light receiving unit receives, the refractive index of the measurement medium contacting the cladding, in which the optical fiber is multi-mode one, and the short-period gratings have plural kinds of periods. | 11-25-2010 |
| 20100328652 | REFRACTOMETER - A refractometer has a housing ( | 12-30-2010 |
| 20110043791 | Metrology Method and Apparatus, Lithographic Apparatus, Device Manufacturing Method and Substrate - A metrology apparatus is arranged to illuminate a plurality of targets with an off-axis illumination mode. Images of the targets are obtained using only one first order diffracted beam. Where the target is a composite grating, overlay measurements can be obtained from the intensities of the images of the different gratings. Overlay measurements can be corrected for errors caused by variations in the position of the gratings in an image field. | 02-24-2011 |
| 20110051127 | REFRACTIVE INDEX MEASURING APPARATUS - By using two probe optical systems for measurement by disposing the probe optical systems with a test object sandwiched therebetween, an optical path length of light transmitted through the test object which is identified locally is calculated using an interference signal thereof. In addition, a geometrical thickness of the same part is calculated by measuring positions of the probe optical systems, whereby two calculated values are obtained. Based on the values and a calculated value for a reference object, a refractive index distribution of the test object is obtained. | 03-03-2011 |
| 20110075131 | OPTICAL SENSOR FOR CHARACTERIZING A SUBSTRATE - A substrate characterization device is provided which includes an optical sensor module and a processor. The optical sensor module includes a light emitting source and a light receiving detector for communicating with the substrate and providing an indication of the diffusion of light through the substrate. The indication of the diffusion of light through the substrate is a signal provided to a processor in communication with a memory module for making a comparison of the signal generated by the optical sensor module with a reference signal to determine the quality of the substrate. | 03-31-2011 |
| 20110102777 | DIFFRACTION GRATING COUPLER, SYSTEM AND METHOD - A diffraction grating coupler which includes an optical waveguide having a first surface and a second surface opposing the first surface, the optical waveguide having a grating on one of its surfaces. The diffraction grating coupler further includes an elastic polymer film deposited on and attached to the optical waveguide, the elastic polymer film partially surrounding the optical waveguide and leaving one of the two surfaces of the optical waveguide open, the diffraction grating coupler being mountable on a specimen by attaching the elastic polymer film to the specimen. | 05-05-2011 |
| 20110116081 | REFRACTIVE INDEX DISTRIBUTION MEASURING METHOD AND REFRACTIVE INDEX DISTRIBUTION MEASURING APPARATUS - The method includes first and second steps of placing an object in first and second media whose refractive indices are lower than that of the object, and of causing the reference light to enter the object to measure first and second transmitted wavefronts. When light rays entering a peripheral portion of the object and passing through a same point of the object are defined as first and second light rays, the method causes these light rays to proceed in directions mutually different to change an NA of the reference light such that the reference light after being transmitted through the object is brought closer to collimated light than that before entering the object. The method calculates an effective thickness of the object using geometric thicknesses thereof and calculates a refractive index distribution thereof using the first and second transmitted wavefronts and the effective thickness. | 05-19-2011 |
| 20110188030 | MICROELECTRONIC SENSOR DEVICE FOR OPTICAL EXAMINATIONS IN A SAMPLE MEDIUM - The invention relates to a microelectronic sensor device with a light source ( | 08-04-2011 |
| 20110249257 | SENSOR ARRANGEMENT - The invention relates to an optical sensor array detecting a first liquid medium in a second liquid medium by means of the reflection of an emitted light beam of a given wavelength, comprising a light source and an associated receiver, further two circular glass rod lenses running parallel to each other while encapsulated in a housing. The index of refraction of the glass rod lenses is different from those of the liquid media. A reflecting surface is situated opposite the glass rod lenses and is connected to the housing. Said array also comprises a control fitted with a beam splitter, a second receiver and a third receiver, the latter two receivers being configured being mutually opposite. | 10-13-2011 |
| 20110267603 | Fluid Monitoring Apparatus and Methods - The invention is generally concerned with apparatus and methods for monitoring fluids, in particular critical fluids such as lubricants, in particular oil, based upon evanescent wave techniques. We describe an oil sensor module for use with attenuated total internal (ATIR) reflection apparatus for optically determining the condition of the oil. The sensor module comprises an evanescent wave sensor, preferable in the form of a tapered optical fibre with a high reflectivity mirror at one or both ends; a module housing for said sensor; and an optical connector for connecting said sensor to the ATIR apparatus. Preferably the sensor module is in the form of a dipstick. | 11-03-2011 |
| 20110292379 | REFRACTIVE INDEX DISTRIBUTION MEASURING METHOD AND REFRACTIVE INDEX DISTRIBUTION MEASURING APPARATUS - A method includes the steps of measuring a first transmitted wavefront in a first medium having a first refractive index and a second transmitted wavefront in a second medium having a second refractive index different from the first refractive index, and obtaining a refractive index distribution projected value of the object in each orientation by removing a shape component of the object utilizing measurement results of the first transmitted wavefront and the second transmitted wavefront and each transmitted wavefront of a reference object that has the same shape as that of the object and a specific refractive index distribution and is located in one of the first medium and the second medium with the same orientation as that of the object, and calculating a three-dimensional refractive index distribution of the object based on a plurality of refractive index distribution projected values corresponding to the plurality of orientations. | 12-01-2011 |
| 20120081698 | Refractive Index Sensor for Fluid Analysis - A refractive index sensor having one or more sources, an adaptive optical element or scanner, imaging optics, a sensing optic, and one or more detectors. The scanner impinges a signal from the source into the sensing optic and onto a sensor-sample interface at sequential angles of incidence. The detector response increases dramatically to signals reflected from the interface at corresponding sequential angles of reflection equal to or greater than a critical angle. The refractive index sensor also uses an input lens between the scanner and the sensing optic and uses an output lens between the sensing optic and the detector. A processor controls the sensor and can determine index of refraction of the fluid sample based on the detector response and scan rate. The sensor can be used in several operational environments from a laboratory to a downhole tool, such as a formation tester to determine properties in a borehole environment. | 04-05-2012 |
| 20120081699 | Downhole Gas Breakout Sensor - A downhole fluid analysis tool has a housing and a flow passage for downhole fluid. A device disposed in the tool housing relative to the flow passage has a one or more sources, one or more sensing optics, one or more detectors, and control circuitry. The source generates an input signal. The sensing optic has a refractive index (RI) higher than crude oil and other expected constituents. A sensing surface of the optic optically coupled to the source interfaces with a downhole fluid. When the variable RI of the downhole fluid reaches a defined relationship to the optic's RI, the input signal interacting with the sensing surface experiences total internal reflection, and the reflected signal from the sensing surface remains in the sensing optic and reflects to a detector. The control circuitry monitors the detector's response and indicates gas break out if the response is above a threshold. | 04-05-2012 |
| 20120194803 | Optical Sensing System And A Method Of Determining A Change In An Effective Refractive Index Of A Resonator Of An Optical Sensing System - According to embodiments of the present invention, an optical sensing system is provided. The optical sensing system includes a resonator arrangement including a first resonator, wherein an effective refractive index of the first resonator is changeable in response to a change in a refractive index of a cladding of the first resonator, and a second resonator to which a current or voltage being adjustable in response to a change in the effective refractive index of the first resonator is applied, wherein the optical sensing system is configured to determine the change in the effective refractive index of the first resonator based on a change in the current or voltage applied to the second resonator. Further embodiments provide a method of determining a change in an effective refractive index of a resonator of an optical sensing system. | 08-02-2012 |
| 20120194804 | SEMICONDUCTOR LASER BASED INTRA-CAVITY OPTICAL MICRO-FLUIDIC BIOSENSOR - A semiconductor laser based intra-cavity optical micro-fluidic biosensor comprises a coupled-cavity semiconductor laser, a 2×2 coupler and a phase adjustment section on one input port of the coupler. The dominant mode of the coupled-cavity laser appears in one output port of the coupler, while the adjacent mode comes out from the other output port of the coupler. The resonant frequency interval of the sensing cavity is slightly larger or smaller than one half of that of the reference cavity. Part of the sensing cavity is the sensing section which is covered by an analyte. The refractive index change of the analyte will cause the lasing mode of the coupled cavity to switch to an adjacent mode, resulting in a π-phase change in the phase difference between the two output ports of the two resonance cavities. By applying the Vernier effect, the power ratio of the two output ports of the coupler will change and the refractive index change of the analyte can be derived. A detection limit of 10 | 08-02-2012 |
| 20120242981 | Critical-Angle Refractometery - A critical-angle refractometer which utilizes an in image of light reflected from an optical interface with a vessel containing a sample under test to determine an optical property of the sample, sample properties are evaluated to prevent improper testing of the sample. This evaluation includes establishing reflectance information associating the amount of reflection with locations in the image; and utilizing a plurality of properties of the reflectance information to determine if the vessel contains a proper sample under test. | 09-27-2012 |
| 20120274929 | DETECTING SPECIES IN A DILUTE MEDIUM - Method and apparatus for detecting a species in a dilute medium, the species having a spectral feature, the apparatus comprising: a beam source arranged to generate a first laser beam and a second laser beam coherent with each other, and having a matching chirp pattern. Beam guide arranged to pass at least the first laser beam through the dilute medium; a beam mixer arranged to mix the first and the second laser beams to form a mixed beam. Detector arranged to detect, during the chirp pattern, the mixed beam and to measure changes in the mixed beam caused by refractive index variations in the dilute medium across a spectral feature. Output providing a signal that changes in response to the measured changes. | 11-01-2012 |
| 20130016341 | IMMERSION REFRACTOMETER - An immersion refractometer includes a microchamber having an inlet and an outlet for allowing a sample containing microorganism particles to flow therethrough, wherein the microchamber comprises at least one trapping site for trapping a microorganism particle in each respective trapping site, and a micromixer for mixing a plurality of liquids to form an external medium, wherein the micromixer and the microchamber are in fluid communication to introduce the external medium into the microchamber. Use of the present immersion refractometer in a method of identifying microorganism particles contained in a sample is also provided. | 01-17-2013 |
| 20130120743 | Integrated Surface Plasmon Resonance Sensor - Plasmon-integrated sensing mechanism comprised of three fundamental parts: a grating structure ( | 05-16-2013 |
| 20130155394 | REFRACTIVE INDEX MEASURMENT APPARATUS AND REFRACTIVE INDEX MEASURMENT METHOD - A refractive index measurement apparatus | 06-20-2013 |
| 20130155395 | Temperature Modulated Refractive Index Measurement - The present invention is directed to temperature modulated refractive index measurement. In accordance with the invention a method for determination of the complex temperature coefficient of the refractive index of a sample is provided, wherein the determination of the complex temperature coefficient of the refractive index of the sample is based on a refractive index measurement. Furthermore, the refractive index of the sample is measured over a period of time, wherein the temperature of the sample is modulated over said period of time and the complex temperature coefficient of the refractive index is calculated on the basis of the refractive index measurement over the period of time and the temperature modulation over the period of time. Additionally, a measurement system, in particular comprising a temperature control system and a processing system to carry out the above method, is disclosed. | 06-20-2013 |
| 20130208266 | MICROREFRACTOMETER USING DEFOCUSING IMAGING - The present invention relates to a microrefractometer using defocusing imaging. The refractometer includes: a target in which a target micrometer and a reference fluid, an index of refraction of which is known, are positioned; an objective lens receiving light that has been emitted from a light source and passed through the target; an aperture including a plurality of pin holes which divide an optical path of the light having passed through the objective lens; and a camera photographing defocused images formed on an image plane of the refractometer by the light having passed through the aperture. | 08-15-2013 |
| 20130293875 | REFRACTOMETRY SYSTEM AND METHOD - A critical-angle refractometer which utilizes an in image of light reflected from an optical interface with a vessel containing a sample under test to determine an optical property of the sample, sample properties are evaluated to prevent improper testing of the sample. This evaluation includes establishing reflectance information associating the amount of reflection with locations in the image; and utilizing a plurality of properties of the reflectance information to determine if the vessel contains a proper sample under test. | 11-07-2013 |
| 20140009754 | METHOD FOR FABRICATION OF LOCALIZED PLASMON TRANSDUCERS - A method is presented for use in fabrication of metal islands on an oxide substrate. The method comprises: depositing a selected metal on the oxide substrate by evaporation of said selected metal; and annealing a film of the selected metal on said substrate at temperatures including an annealing temperature being less than 50° c lower than a glass transition temperature, thereby forming the metal islands partially embedded in said substrate. | 01-09-2014 |
| 20140036257 | Analyzer Instrument And Methods For Operating Same - An instrument for optically measuring at least one property of a test medium, includes a light source for emission of light, a light management unit for guiding the light onto and/or into and through a detection space in the test medium, a light detection unit for detecting a fraction of the light scattered, reflected or transmitted by the test medium, a power management unit, and a data management unit. The instrument further includes or is coupled to a power source via a source wiring. The power management unit distributes energy from the power source via a buffer wiring to the light source, and via a further wiring to the light detection unit and the data management unit. The data management unit exchanges measurement data via signal wiring with the light detection unit with a receiving unit. The instrument is adapted to be operated in a potentially hazardous environment. | 02-06-2014 |
| 20140118726 | Device for measuring refractive index of medium based on optical delay technology and its method - A device for measuring refractive index of medium based on optical delay technology comprises: a signal processing and controlling module, an optical transmitter module, and an optical receiver module, wherein the signal processing and controlling module controls the optical transmitter module to transmit an optical signal having a certain wavelength; the optical signal is injected into a medium to be measured; the optical signal is transmitted and delayed by the medium; the optical receiver module receives the optical signal delayed, and transforms the optical signal delayed into a electrical signal; the electrical signal is amplified and transmitted to the signal processing and controlling module; the signal processing and controlling module measures a delay time between transmitting and receiving the optical signal; and the refractive index of the medium at the certain wavelength is calculated based on the delay time and a known length of the medium. | 05-01-2014 |
| 20140268115 | METHOD FOR MEASURING REFRACTIVE INDEX, AND REFRACTOMETER - An exemplary method for measuring a refractive index of a substance being measured through an optical window, includes arranging the optical window in contact with the substance being measured, directing light to the interface of the optical window and substance being measured, where part of the light is absorbed by the substance being measured and part of it is reflected from the substance being measured to form an image, in which the location of the boundary of light and dark areas expresses a critical angle of the total reflection dependent on the refractive index of the substance being measured, and examining the formed image. Light is directed on a first structure and to desired angles on an interface between the optical window and substance being measured. Light reflected from the interface of the optical window and substance being measured is directed on a second structure. | 09-18-2014 |
| 20140354979 | Optical Refractive Index Measuring System Based on Speckle Correlation - An optical detection system for measuring a refractive index of a liquid analyte comprising a light transmitting assembly fiber, which includes a single-mode fiber, an optical fiber sensing module and a multi-mode fiber. The optical detection system is configured to emit a coherent light beam to one end of the assembly fiber; and a detector is configured to capture a specklegram from an exit end of the assembly fiber. When the optical detection system is in operation, the optical fiber sensing module is configured to be submerged into the liquid analyte. By analyzing the correlation between the specklegram corresponding to the liquid analyte and the reference specklegram, the refractive index of the liquid analyte can be obtained. | 12-04-2014 |
| 20150015871 | MICROSCOPE SYSTEM AND METHOD FOR MEASURING REFRACTIVE INDEX OF SAMPLE - A microscope system includes: a wavefront modulator that modulates a wavefront of light from a light source; an objective that irradiates a sample with light whose wavefront has been modulated by the wavefront modulator; a spherical aberration corrector that corrects spherical aberration caused by a difference between a refractive index of a medium between the objective and the sample and a refractive index of the sample; a refractive index calculator that calculates, for each wavelength of the light from the light source, an average refractive index of a medium between the objective and a condensing position of light emitted from the objective on the basis of an amount of the corrected spherical aberration; and a controller that controls the wavefront modulator to correct chromatic aberration calculated on the basis of the calculated average refractive index for each wavelength. | 01-15-2015 |
| 20150015872 | PARTICLE SUSPENSIONS USED AS LOW-CONTRAST STANDARDS FOR INSPECTION OF LIQUIDS - In certain embodiments, a method for validating the human visual inspection process or an optical analysis instrument for use with biological particles may include inspecting a standard particle solution using the optical analysis instrument. The standard particle solution may include a known concentration of standard particles suspended in solution with the standard particles having a defined size and shape distribution. The standard particles may have a refractive index that is substantially similar to a refractive index of the biological particles. The method may include assessing a concentration of standard particles in the standard particle solution from the inspection. The method may include assessing a difference between the assessed concentration of standard particles and the known concentration of standard particles. The method may include modifying one or more parameters of the optical analysis instrument based on the assessed difference between the concentrations. The method may include assessing a detection efficiency of the optical analysis instrument. | 01-15-2015 |
| 20150029496 | METHOD OF DEPOSITION MONITORING - The invention provides methods and compositions for measuring the formation of scale within a process system. The method involves measuring changes in the cell fouling as reflected on the refraction index measurements of a liquid medium with a refractometer and determining the scale formation from changes in the cell fouling factor. This allows for a refractometer to determine the formation of scale in locations that otherwise would not be measureable. | 01-29-2015 |
| 20150036125 | Sensor for monitoring a medium - The invention relates to sensors for monitoring a medium, comprising an electromagnetic radiation source and a detector of electromagnetic radiation, the medium being located in the ray path between the electromagnetic radiation source and the detector and the refraction varying when the medium varies. The sensors are characterized by their ease of production. To that end, the electromagnetic radiation source and detector are disposed in at least one housing. Furthermore, either at least one region or at least one component of the housing consists of material which is transparent to electromagnetic radiation, the medium being located in the region or at the component of the housing. At least one wall of the region is so disposed or designed that the radiation for refraction impinges on or emerges from the surface at an angle which is different from 90°. In addition, the detector is at least one photo diode, such that, when the medium varies, the radiation either does not impinge or impinges on the photo diode. | 02-05-2015 |
| 20150109614 | ENHANCED SURFACE PLASMON RESONANCE METHOD - The disclosure relates to processing SPR signals, in particular signals obtained by illuminating a conductive surface with light at two wavelengths. Processing SPR signals can involve processing a first and second signal indicative of an intensity of light, received from a conductive layer at which SPR has occurred, as a function of angle of incidence, reflection or diffraction at the layer. The first and second signals each have two dips corresponding to a respective wavelength of the light at a respective angle at which surface plasmon resonance occurs for the respective wavelength and a peak between the two dips. The processing includes deriving a first and second value of a quantity indicative of signal magnitudes in the region of the peak. The first and second values can be compared to detect a change in refractive index at the layer after the first signal and before the second signal was captured. | 04-23-2015 |
| 20150293038 | OPTICAL QUALITY CONTROL DEVICE - Optical quality control system for controlling the quality of a high refractive index solid ( | 10-15-2015 |
| 20150330896 | METHOD AND MEASURING DEVICE FOR CONTINUOUSLY MEASURING THE ABBE NUMBER - Method and device for measuring the Abbe number in a process liquid. Light generates successively at wavelengths of 486.1 nm, 589.3 nm and 656.3 nm and different light wavelengths are directed successively through a measuring window in the process liquid so total reflection occurs at each wavelength on the measuring window surface and process liquid. Partial light reflected at each wavelength is directed to a sensor, whereby an image forms on the sensor surface; between light and dark boundary region corresponding to each wavelength critical angle, in which total reflection occurs. At each wavelength between light and dark boundary region detection by image analysis. At each wavelength, dependency between light and dark boundary region and refractive-index of process liquid measurement is detected, the Abbe number by refractive-index values obtained from: | 11-19-2015 |
| 20150330897 | IMAGE SENSOR AND METHOD FOR MEASURING REFRACTIVE INDEX - An image sensor and method for measuring a refractive index of a material includes a semiconductor substrate having an exposed surface for facing the material, an array of pixels on the semiconductor substrate spaced from the exposed surface, and a light source on the semiconductor substrate configured to emit light into the semiconductor substrate toward the exposed surface to reflect the light off the exposed surface toward the array of pixels, wherein the array of pixels detect the light reflected by the exposed surface for calculating the refractive index of the material. | 11-19-2015 |
| 20150346089 | ADHERING MATTER DETERMINATION DEVICE - An adhering matter determination portion includes an irradiation portion, a light receiving portion and a determination portion. The irradiation portion radiates a light to a plurality of different areas of a transparent plate. The light receiving portion converts reflected waves reflected at the different areas into electrical signals. The determination portion compares at least one of detection signals outputted from the light receiving portion with a determination threshold. When the detection signal is lower than the determination threshold, the determination portion determines that there is an adhering matter on the transparent plate. The determination portion compares the detection signals. When a difference of the detection signals is higher than a condensation determination value, the determination portion determines that the adhering matter is raindrops. When the difference of the detection signals is lower than the condensation determination value, the determination portion determines that the adhering matter is dewdrops. | 12-03-2015 |
| 20160041093 | METAMATERIAL AND BIOLOGICAL AND CHEMICAL DETECTING SYSTEM - A metamaterial is suitable for receiving a detecting wave. The detecting wave interacts with the metamaterial. The metamaterial includes a substrate and at least one unit cell placed on the substrate. The size of the unit cell is at least less than ⅓ of the wavelength of the detecting wave. A biological and chemical detecting system using the metamaterial is also disclosed. | 02-11-2016 |
| 20160109363 | METHOD FOR DETERMINING THE REFRACTIVE POWER OF A TRANSPARENT OBJECT, AND CORRESPONDING DEVICE - A method for determining a refractive power of a large-surface-area transparent object, such as a windshield, a visual aid, a cockpit glazing, a helmet visor, or the like, includes detecting a first imaging of a first line grating through the transparent object at at least one predetermined point of the object using a camera and determining a line spacing of the first imaging, the rotation of the lines relative to the first line grating or both through use of a computing unit on the basis of the first imaging at the at least one specified point and using the line spacing or rotation of lines to determine the refractive power at the at least one predetermined point of the transparent object. | 04-21-2016 |
| 20160187255 | AUTOMATIC OBSERVATION APPARATUS FOR DETECTING MINERAL SAMPLES - An automatic observation apparatus for detecting mineral samples comprises a base ( | 06-30-2016 |
| 20160254648 | Gap Distributed Bragg Reflectors | 09-01-2016 |
| 20160375864 | Sensor device for recording moisture on a window and motor vehicle - With a sensor device for recording moisture on a window pane with a transmitter and a receiver and an optical unit arranged between the transmitter and the receiver, wherein the optical unit includes an optical input unit facing the transmitter, an optical output unit facing the receiver and a coupling-in and coupling-out region on the side of the window pane, the coupling-in and coupling-out region is optically separated from the optical input unit and the optical output unit such that the electromagnetic waves emitted by the transmitter are refracted. A particularly compact constructional design is achieved thereby. | 12-29-2016 |
| 20160377537 | FLUID DETECTOR AND COUPLER THEREOF - A fluid detector includes a coupler. The coupler includes a hollow tube, an optical fiber, and a jacket. A fluid delivery device includes a fluid output end and a fluid recovery end. The fluid output end is connected to a first input end of the hollow tube. The fluid recovery end is connected to a first output end of the hollow tube. An optical signal generator inputs an optical signal to a second input end of the optical fiber. A detection module includes an optical sensor, a database, and a processor. The optical sensor detects the optical signal outputted by the second output end and generates a sensing datum. The processor is electrically connected to the optical sensor and the database. The processor compares a characteristic value of the sensing datum with characteristic values of sample data stored in the database and generates a detection data. | 12-29-2016 |
| 20160377538 | ARRANGEMENT IN CONNECTION WITH MEASURING WINDOW OF REFRACTOMETER, AND REFRACTOMETER - An exemplary arrangement includes a prism-shaped measuring window, which has a measuring surface adapted to contact a substance being measured. A first surface is adapted to direct light originating from a light source to the measuring surface through the measuring window. A second surface is adapted to direct totally reflected light from an interface between the measuring surface in contact with the substance being measured and a substance being measured outside of the measuring window. A first lens arrangement is adapted to focus the light from the light source on the first surface. A second lens arrangement is adapted to focus the totally reflected light passing through the second surface to a device used for analysis. A lens in each of the first and second lens arrangements closest to the measuring window is integrated into the measuring window and establishes optical refractive power in the first and second surfaces. | 12-29-2016 |
| 20180024052 | Immersion Refractometer | 01-25-2018 |
| 356129000 | Schlieren effect | 1 |
| 20090128803 | PACKAGING OR CONTAINER WITH OPTICAL INDICATOR - An optical indicator ( | 05-21-2009 |
| 356130000 | Differential | 3 |
| 20090079968 | APPARATUS FOR MEASURING DIFFERENTIAL REFRACTIVE INDEX - The invention provides an apparatus for measuring the differential refractive index for liquid chromatography which greatly improves the sensitivity while having quick responsiveness to refractive index difference of sample liquid, as well as a differential refractive index detector and a measurement method for a differential refractive index using the same. The apparatus for measuring a differential refractive index having a flow cell deflecting a measurement beam in accordance with the refractive index difference between a reference liquid and a sample liquid for measuring the change of the deflection angle on the basis of the refractive index difference of the measurement beam transmitted between the reference liquid and the sample liquid, wherein the flow cell comprises three independent chambers including a first chamber, a second chamber adjacent to the first chamber and a third chamber adjacent to the second chamber. | 03-26-2009 |
| 20140192350 | Flow Cells For Differential Refractive Index Detection - A flow cell for differential refractive index detection. The flow cell includes a transparent body that extends from a first end to a second end along a longitudinal axis. The transparent body defines a sample prism chamber and reference prism chamber. The sample prism chamber is configured to allow fluid flow between the first and second ends of the transparent body along the longitudinal axis. The reference prism chamber is configured to receive a reference fluid. The sample and reference prism chambers each include a grating comprising a plurality of grooves extending along the longitudinal axis in the direction of fluid flow. | 07-10-2014 |
| 20160018326 | SYSTEMS AND METHODS FOR REFRACTIVE INDEX DETECTION - The invention provides differential refractive index detectors and methods for the use of differential refractive index detectors. In an exemplary embodiment, a differential refractive index detector includes a flow cell body having a proximal end, a distal end, and a flow axis extending between the proximal and the distal end. The flow cell body includes a first chamber and a second chamber and the fluid conduits coupled to the flow cell body can be tapered to reduce dispersion. | 01-21-2016 |
| 356133000 | Refractive rod engages specimen | 5 |
| 20090059211 | OPTICAL BIOSENSOR USING SPR PHENOMENON - An optical biosensor using a surface plasmon resonance phenomenon includes an input optical waveguide including a first optical mode converting unit for converting a core mode to a cladding mode; and an optical sensing unit for allowing a specific wavelength among wavelengths constituting the converted cladding mode to be lost according to density of bio-material. The optical biosensor can accurately measure density of bio-material by using an optical signal. | 03-05-2009 |
| 20090153845 | FIBER OPTIC REFRACTOMETER - A downhole refractometer apparatus and method include a light source, an optical fiber that receives light emitted from the light source and a fluid cell that receives a downhole fluid. A metalloid interface member is disposed to provide an interface with the downhole fluid in the fluid cell, and a light detecting device detects a light reaction at the metalloid interface member, the downhole fluid property being estimable at least in part based on the light reaction. | 06-18-2009 |
| 20090153846 | FLUID LEVEL INDICATOR - Fluid level detector device and method are disclosed, for determining the height level of one or more immiscible fluids in a vessel. The device includes at least one optical set-up including a light source for generating a beam of light of predetermined width and optical characteristics, the light beam arranged to be directed into the fluid so as to cause refraction of the light beam, dependent on the index of refraction of the fluid, the light beam covering a predetermined detection region. A photosensitive detector is provided capable of generating a signal corresponding to at least one optical characteristic of the light beam after passing the fluid. An interpreter is provided for receiving the signal, interpreting the signal and indicating the height level of the fluid. | 06-18-2009 |
| 20120069328 | REFRACTIVE INDEX TOOL AND METHOD - Refractive index tools and method. A refractive index tool includes a wave source configured to generate a wave; a transparent rod configured to receive the wave from the wave source; and a wave detector configured to receive the wave from the transparent rod. The wave source is provided at a first end of the transparent rod and the wave detector is provided at the first end or a second end of the transparent rod so that the wave emitted by the wave source travels through the transparent rod and experiences total internal refraction prior to arriving at the wave detector. | 03-22-2012 |
| 20120327401 | APPARATUS AND METHOD FOR MEASURING DEGREE OF CURE OF ADHESIVE AGENT - A degree of cure measuring apparatus has: a second optical fiber for emitting light from a tip face thereof; a probe for holding adhesive agent and irradiating the adhesive agent with light while the adhesive agent is in contact with the tip face of the second optical fiber; a detector for detecting light that is reflected from an interface between the tip face of the second optical fiber and the adhesive agent and then returns to the second optical fiber; and a computer for calculating the refractive index of the adhesive agent from the rate of the light amount of the light detected by the detector to the emission light amount from the tip face of the second optical fiber. | 12-27-2012 |
| 356134000 | Prism forming fluid specimen container | 1 |
| 20100085560 | Coffee Refractometer Method And Apparatus - A coffee refractometer includes a prism that receives a brewed coffee sample, thus forming a prism-sample interface. A processor or microcontroller controls a light source to provide incident light to the prism-sample interface. The prism-sample interface refracts light toward a photodetector. A temperature sensor provides temperature information to the processor. The refractometer includes a memory store that stores a TDS formula that expresses the TDS of brewed coffee as a function of the index of refraction (n | 04-08-2010 |
| 356135000 | Prism engaging specimen | 10 |
| 20090015822 | FUEL PROPERTY DETECTION DEVICE - A fuel property detection device for detecting a property of fuel based on a detection signal output from a photoreceptor includes a light guiding member having a reflecting surface located in direct contact with the fuel. The light guiding member includes a light emitting surface through which measurement light from a light source is emitted from the light guiding member into the fuel, a light incident surface through which the measurement light emitted from the light emitting surface and passing through the fuel enters again the light guiding member, and the reflecting surface from which the measurement light incident from the light incident surface is reflected toward the photoreceptor. The light incident surface and the light emitting surface are opposite to each other to have a space therebetween in the light guiding member, and the space is provided to be filled with the fuel. | 01-15-2009 |
| 20090046277 | REFRACTOMETER - Certain embodiments of the present invention provide a refractometer including: a housing having an immersion portion, the immersion portion having an opening; a light source for emitting a light; a light sensor for converting a received light into an electrical signal; a prism including faces, including: a first face proximal to the light source and the light sensor; a second face, at least a portion of the second face configured for contacting a sample liquid through the opening, and for forming an interface between the second face and the sample liquid; and a third face, wherein the light travels by: being directed towards the second face; being reflected at least in part by the interface towards the third face; and being reflected at least in part by the third face towards the light sensor. In an embodiment, the refractometer further includes a control portion for receiving the electrical signal, and for determining a refractive index of the sample liquid based at least in part on the electrical signal. In an embodiment, the control portion determines the refractive index in at least one of: a batch mode for detecting the electrical signal once; and a sequential mode for detecting the electrical signal at least twice. In an embodiment, the refractometer further includes a substrate at least partially positioned within the housing, the substrate supporting the light source and the light sensor. In an embodiment, the refractometer further includes a display portion connected to the control portion for displaying a representation of the refractive index. | 02-19-2009 |
| 20130182245 | REFRACTIVE INDEX MEASURING DEVICE AND REFRACTIVE INDEX MEASURING METHOD - In a refractive index measuring device ( | 07-18-2013 |
| 20140104601 | IMAGING BASED REFRACTOMETERS - Refractometers for simultaneously measuring refractive index of a sample over a range of wavelengths of light include dispersive and focusing optical systems. An optical beam including the range of wavelengths is spectrally spread along a first axis and focused along a second axis so as to be incident to an interface between the sample and a prism at a range of angles of incidence including a critical angle for at least one wavelength. In some cases, the prism can have a triangle, parallelogram, trapezoid, or other shape. In some cases, the optical beam can be reflected off of multiple interfaces between the prism and the sample. An imaging detector is situated to receive the spectrally spread and focused light from the interface and form an image corresponding to angle of incidence as a function of wavelength. One or more critical angles are identified and corresponding refractive indices are determined. | 04-17-2014 |
| 356136000 | Internally reflecting prism | 5 |
| 20090128804 | Optical unit - An optical unit includes a light source unit emitting parallel light; a light-receiving element array; and a prism rendering emitted light from the light source unit incident on a specimen placement section and introducing totally reflected light from the specimen placement section into the light-receiving element array. The prism has an entrance surface rendering the parallel light emitted from the light source unit incident on the prism, a curved reflecting surface which reflects light passing through the entrance surface and incident on the prism toward a focal position thereof, the specimen placement section of a planar shape provided at a position including the focal position of the curved reflecting surface, and an exit surface making light totally reflected at the focal position of the curved reflecting surface in the specimen placement section emerge into the outside of the prism. | 05-21-2009 |
| 20090279076 | SELF CALIBRATED MEASUREMENT OF INDEX OF REFRACTION CHANGES TO ULTRA-FAST PHENOMENA - A method for calibrating the angle-axis of signals measuring changes in an index of refraction. A pump beam is generated to propagate near a prism to induce index-changes in air by lining up air molecules outside of the prism. A generated probe beam is directed at the prism. A sinc | 11-12-2009 |
| 20100290037 | PRISM COUPLED SILICON ON INSULATOR SENSOR - Methods and devices related to a sensor element for use in the detection and monitoring of molecular interactions. The sensor element uses a silicon-on-insulator wafer optically coupled to a silicon prism. The wafer has a thin silicon film top layer, a silicon substrate layer, and a buried silicon dioxide layer sandwiched between the silicon film and substrate layers. The wafer is coupled to the prism on the wafer's substrate side while the interactions to be monitored are placed on the wafer's silicon film side. An incident beam is directed at the prism and the incident angle is adjusted until the beam optically couples to the silicon film's optical waveguide mode. When this occurs, a decrease in the intensity of the reflected beam can be detected. The molecular interactions affect the phase velocity or wave vector of the propagating mode. Similarly, instead of measuring the incident angle at which optical coupling occurs, the phase of the reflected beam may be measured. | 11-18-2010 |
| 20150042985 | OPTICAL SENSOR APPARATUS TO DETECT LIGHT BASED ON THE REFRACTIVE INDEX OF A SAMPLE - An optical sensor apparatus includes an optically transmissive structure (e.g., a prism) having two planar faces and a third planar face that connects the two planar faces, two or more light sources located outside the structure, and a photodetector array located outside the prism. The structure, light sources, and photodetector array are configured such that light from the light sources that is totally internally reflected at an optical interface between the prism and a sample outside the structure proximate one of the two planar faces is incident on a portion of the photodetector array that depends on a refractive index of the sample. The light sources are positioned with respect to the structure and photodetector array such that the totally internally reflected light from each light source corresponds to a different range of refractive index of the sample and maps to a corresponding portion of the photodetector array. | 02-12-2015 |
| 20150362429 | METHOD AND ARRANGEMENT IN CONNECTION WITH SEPARATE SAMPLE TAKEN FROM PROCESS LIQUID - A method and an arrangement are disclosed in connection with a measurement arrangement of optical parameters of a separate sample taken from a process liquid, in which method a sample is taken from the process liquid. The sample can be arranged into a sample vessel provided with at least one measurement window, and optical parameters of the sample in the sample vessel are measured through the measurement window. In the sample in the sample vessel, a flow is produced which can be used to mitigate (e.g., prevent) the measurement window surface in contact with the sample from getting dirty. A back-and-forth flow can be produced in the sample residing in the sample vessel by means of pressure variation focused on the sample, and the back-and-forth flow can be focused on the surface of the optical measurement window. | 12-17-2015 |
| 356137000 | Plural prisms | 1 |
| 20090103076 | Transmitted light refractometer - A transmitted light refractometer allows high measurement accuracy across a broad measurement range, even under difficult measuring conditions. The transmitted light refractometer can be connected to a process simply via a single access. In accordance with advantageous features, the transmitted light refractometer covers a measurement range for all practically relevant media and includes integrated temperature compensation. A deflecting optics unit is arranged relative to an illumination optics unit such that the deflecting optics unit deflects a parallel beam through the process liquid and a measurement prism into the transmitted light refractometer back to the side from which it was radiated. The illumination optics unit, an imaging optics unit, and a detector plane are arranged on the light radiation side such that only one process access is needed. | 04-23-2009 |
