Abstract: A method and system are presented for use in controlling a process applied to a patterned structure having regions of different layered stacks. The method comprises: sequentially receiving measured data indicative of optical response of the structure being processed during a predetermined processing time, and generating a corresponding sequence of data pieces measured over time; and analyzing and processing the sequence of the data pieces and determining at least one main parameter of the structure.

Abstract: Aspects of the disclosure relate to systems and techniques for inspecting seals for high altitude balloons. In one example, a system may include a reflective surface, a translucent material on the reflective surface, and a movable light source configured to move along the reflective surface and provide light to the reflective surface. The light is provided such that it is reflected from the reflective surface and through the translucent material in order to backlight a balloon envelope seal for inspection. A method for inspecting a balloon envelope seal may include placing balloon envelope material on a table, forming a seal between portions of the material, moving a light over the seal, shining light onto a reflective portion of the table below the seal to backlight the seal, and inspecting the seal using the backlighting of the seal.

Abstract: The present invention relates to a chemical element analysis device and method for contaminants in a liquid. The chemical element analysis device for contaminants in a liquid according to the present invention comprises: a sample storage unit 10 for storing a sampled liquid sample 1; a laser unit 20 for emitting a laser beam 21: 21a, 21b, and 21c and irradiating the laser beam 21 to the sample 1: 1a, 1b, and 1c sprayed from the sample storage unit 10; and a spectrometer 30 for collecting plasma light 31: 31a, 31b, and 31c generated by irradiating the laser beam 21 to the sample 1, and measuring a spectrum of the plasma light 31.

Abstract: Methodology of characterizing pore size distribution in a porous thin film having a surface, or in a surface region of a porous semi-infinite bulk substrate having a surface, involving applying a mathematical model of a sample based on effective medium approaches, such as the Bruggeman effective medium approach.

Abstract: Some embodiments are directed to a compliance monitor for monitoring usage of a medicament delivery device that includes a store of medicament, and a medicament dispenser for delivering a dose of medicament. The compliance monitor includes a compliance monitor housing configured to attach to the medicament delivery device, a dose detector for determining when a dose of medicament is dispensed, and a recognition module for identifying the properties of the medicament delivery device.

Abstract: An authentication structure and an authenticating method using the same are provided. The authentication structure includes a plurality of input couplers that generate surface plasmons by being selectively coupled to lights because the plurality of input couplers are different in terms of at least one of a geometric structure and an arrangement, and an output coupler that outputs a speckle pattern based on the surface plasmons.

Abstract: An apparatus for detecting a material within a sample includes a light emitting unit for directing at least one light beam through the sample. A plurality of units receive the light beam that has passed through the sample and performs a spectroscopic analysis of the sample based on the received light beam. Each of the plurality of units analyze a different parameter with respect to the sample a provide a separate output signal with respect to the analysis. A processor detects the material with respect each of the provided separate output signals.

Abstract: A light receiving/emitting element module includes: a substrate; a light emitting element disposed on one principal face of the substrate; a light receiving element disposed on the one principal face and disposed next to the light emitting element in a first direction; and an optical element located away from the one principal face, and having a first principal face, and a second principal face. The optical element includes a first lens for the light emitting element, and a second lens for the light receiving element. The first lens and the second lens are disposed side by side in the first direction, and a curved surface defining the first lens and a curved surface defining the second lens which are disposed on at least one of the first principal face and the second principal face, intersect each other.

Abstract: The invention relates to a device and to a method for continuously measuring the hydrogen sulfide concentration of an off-gas by means of a detachable device suitable for being temporarily connected to equipment producing the off-gas. The method comprises a step of measuring the absorption of electromagnetic radiation by the off-gas. The device and method method can be used in particular to measure the hydrogen sulfide concentration in an off-gas produced during a step of sulfiding a hydroprocessing catalyst.

Abstract: A spectrometer for tailored spectral sampling includes a dispersive element for spatially dispersing a spectrum of a light beam, a detector including a plurality of pixels distributed along a sampling direction, and a spectrum reshaping element including at least one of a reflective surface or a transmissive surface for reshaping the spatially-dispersed spectrum of the light beam from the dispersive element along the sampling direction to provide a selected distribution of the spectrum to the detector. The detector may spatially sample the spectrum of incident light with the plurality of pixels at selected spectral intervals based on the selected distribution of the spectrum.

Abstract: One variation of a system for tracking and responding to Sun exposure includes: a housing configured to transiently attach to a port on a first garment; a jack coupled to the housing configured to transiently engage a port on the first garment; a radiation sensor arranged in the housing and configured to detect solar radiation incident on the housing; and a controller configured to: read an identifier of the first garment from the port via the jack; based on the identifier, estimate a skin exposure of a user wearing the first garment; read an solar radiation value from the radiation sensor at a first time; and, based on the solar radiation value and the skin exposure, estimate an solar radiation exposure of the user at the first time.

Abstract: A system and a method are provided for sampling and analyzing organic material, including soil, fertilizer, manure and leaves. A sample container having porous sidewalls and a unique identifier is provided. A geographic position corresponding to a location where a sample was taken is associated with the unique identifier. The sample container with the sample contained therein is received, and the sample is compacted while inside the sample container. The sample is analyzed while inside the sample container using a Laser Induced Breakdown Spectroscopy (LIBS) system and analysis results are generated. The analysis results of the sample are associated with the unique identifier of the sample container.

Abstract: A method, apparatus and system for estimating reflectance parameters and a position of the light source(s) of specular reflections of a scene include RGB sequence analysis with measured geometry in order to estimate specular reflectance parameters of an observed 3D scene. Embodiments include pixel-based image registration from which profiles of 3D scene points image intensities over the sequence are estimated. A profile is attached to a 3D point and to the set of pixels that display its intensity in the registered sequence. Subsequently, distinction is made between variable profiles that reveal specular effects and constant profiles that show diffuse reflections only. Then, for each variable profile diffuse reflectance is estimated and subtracted from the intensity profile to deduce the specular profile and the specular parameters are estimated for each observed 3D point. Then, the location of at least one light source responsible for the specular effects is estimated.

Abstract: This method for characterizing a state of adhesion of the particles is applied via a system including a source of spatially coherent light and a photodetector array, the particles being contained in a liquid medium, the liquid medium being delimited by a transparent surface, the particles being able to adhere to the transparent surface. The method includes: illuminating the medium with the source of spatially coherent light; acquiring at least one image by the photodetector array, the image being formed by radiation transmitted by the illuminated medium and including at least one elementary diffraction pattern, each elementary diffraction pattern corresponding to waves diffracted by a particle during the illumination of the medium; and computing, from at least one acquired image and for at least one particle, a primary indicator characterizing the state of adhesion of the particle to the transparent surface.

Abstract: A spectroscope including: a spectral element that is configured to spectrally separate signal light; a first optical system that is configured to condense spectroscopic light spectrally separated by the spectral element; and an optical receiver that is configured to receive the spectroscopic light; wherein the optical receiver includes a plurality of regions different sensitivities with respect to a wavelength characteristics of the spectroscopic light.

Abstract: An optical characteristic measurement apparatus which can be reduced in size and can achieve enhanced versatility is provided. The optical characteristic measurement apparatus includes a first optical element which converts measurement light from a measurement target object to parallel light, a reflective lens which reflects the parallel light from the first optical element to convert the parallel light to convergent light, a light reception portion which receives the convergent light from the reflective lens, and a drive mechanism which varies a position of the first optical element relative to the measurement target object.

Abstract: The present invention relates to an apparatus and method of a real-time, monitoring and control feedback system for a 2-D spectrometer application, to correct for active optical axis pointing misalignments or jitter (i.e., tip, tilt), that result in degraded scientific image integrity, unwanted spatial crosstalk and image blurring artifacts which severely limit the applications for high resolution spectrometer image data. The present invention provides a unique system architecture which ensures the most direct optical axis motion detection and control capability that will enable sub-pixel image motion monitoring and boresight control stability, thus, maximizing the science image quality.

Abstract: Gas cells and systems for absorption spectroscopy, and methods thereof. The method involves providing a channel with an inlet for receiving a gas sample and an outlet for releasing the gas sample from the gas cell; providing first and second end components with an optically transparent portion, each of the end components is configured to minimize a difference between a temperature of the optically transparent portions and an internal temperature of the channel; mounting the first end component the channel so that the optically transparent portion is positioned for receiving an incident beam into the channel; and mounting the second end component to the channel opposite from the first end component so that the optically transparent portion is positioned for permitting optical transmission into and out of the channel.

Abstract: Disclosed herein is an optical device that determines the central coordinates of a large-diameter cylindrical structure. The optical device has the function of calculating the central coordinates of a cylindrical structure using the coordinates of a reference point of the optical device, the coordinates of a survey point on the cylindrical structure seen on the optical axis of a telescope in a state where one of right and left reference marks (e.g., a vertical line) coincides with the edge of the cylindrical structure and the optical axis is positioned on the surface of the cylindrical structure, and an aperture angle between the optical axis and the reference mark.

Abstract: A method and a device allow optical properties of a sample to be estimated. The method includes the illumination of the sample by a first light source, and the formation of an image of the sample thus illuminated, on the basis of which a first optical property is estimated, at various points on a surface of the sample. The method also includes measuring an auxiliary optical property of the sample and estimating the first optical property, taking account of the auxiliary optical property measured on the sample.