Abstract: Inline optical sensor which includes a modular flowcell block with a flow passageway of predetermined diameter, interchangeable adapters for connecting flow lines with different internal diameters to the block, and an optical pathlength that can be adjusted both in fixed increments with window spacers and continuously with vernier adjusters, and a light source and an optical detector in modular housings which can be aligned both radially and axially. Thermal isolation is provided between the housings and the flowcell body, and air circulation further reduces temperature and condensation within the housings.

Abstract: A seed sorter system is operable to sort seeds based on one or more characteristics of the seeds. The system includes a seed loading station operable to isolate individual seeds from a plurality of seeds and load the isolated seeds into a seed tray, an imaging and analysis subsystem operable to collect image data of at least a top portion and a bottom portion of each of the seeds in the seed tray and determine one or more characteristics of each of the seeds, a seed off-load and sort station operable to remove the seeds from the seed tray and sort the seeds to desired receptacles based on the determined one or more characteristics of the seeds, and a seed transport operable to move the seed tray between the seed loading station, the imaging and analysis subsystem, and the seed off-load and sort station.

Abstract: An apparatus and method for adjusting prism beam expander. The prism beam expander adjustment apparatus has a light source, a baseplate, a precise rotary stage, support columns, a two-dimensional slide stage, the first 90-degree bellcrank lever, an indication light source, the second 90-degree bellcrank lever, an optical filter, a photodetector, a computer, and an assembly platform. Incidence angles of all prisms of a prism beam expander can be precisely demarcated and designed beam magnification is obtained with the preferred adjustment methods. The parallel of the prisms can be guaranteed by monitoring the pitching of the prisms in the adjustment process. As a result, the linewidth narrowing and cavity losses decreasing can be improved by application of the fixed prism beam expander.

Abstract: There is provided a focus detection apparatus including: microlenses; light reception units that receive light which is incident through the microlenses; waveguides that cause light, which is incident to the microlenses at a predetermined angle, to be received by the light reception units and that are provided between the microlenses and the light reception units; and a detection unit that detects focusing output values from the light reception units.

Abstract: Gas analyzer and method for measuring the concentration of a gas component in a sample gas, wherein the wavelength of the light of a wavelength-tunable light source is varied within periodically successive sampling intervals and, in the process, additionally modulated with a frequency to perform wavelength dependent sampling of an absorption line of a gas component to be measured in the sample gas.

Abstract: An optical probe includes a probe cover, within which is installed an optical system having an illuminating optical system and a receiving optical system. An emitting region and an incidence region through which light passes are provided to a bottom surface of the probe cover, the bottom surface forming an opposing region opposite a work piece. The bottom surface forms a surface where, of the light reflected from the work piece, light following a direct reflection direction is reflected in a direction moving away from the incidence region, from a position where light emitted from the emitting region is emitted at the work piece. Accordingly, an amount of second order reflected light striking the incidence region can be suppressed and, therefore, an occurrence of an erroneous value in received light distribution can be suppressed.

Abstract: Light emitting diodes (LEDs) are mounted in an array to an upper structure overlying a lower structure with a plurality of light detectors thereon. Each LED is configured to overlie a separate detector. Each LED emits light at a frequency relevant for measuring optical density of a specimen. LEDs having different frequencies are included within the LED array. A corresponding array of detectors is also provided, mounted to the lower structure. Spacing between adjacent LEDs and between adjacent detectors match a spacing between wells in a microtiter plate. Spacing between the lower structure and the upper structure supporting the LEDs is sufficient for the microtiter plate to fit between. Circuitry sequentially fires individual LEDs and gathers optical density data through the detectors for specimens in the wells of the microtiter plate. The structures are then moved to a next adjacent well position on the microtiter plate and the process repeated.

Abstract: A wrinkle detection device (100) includes: a light projector (110) which, while moving relative to a layered body (40) formed by stacking electrodes (50) and separators (60), projects slit light onto an outermost one of the separators (60); a camera (120) which shoots a shape of the slit light on the separator (60); and a control unit (130) which calculates a gradient of the separator (60) on the basis of the shot shape of the slit light, and determines the existence of a wrinkle on the basis of the calculated gradient.

Abstract: The disclosure relates to a remote displacement sensor, such as an optical strain gauge, which uses an optical amplifier implemented by patterns, such as, moiré patterns, to calculate changes in position. In a strain gauge with moiré patterns, two foil layers are provided, a lower foil layer with a reference or static moiré pattern generated by the overlaying of a first pattern with parallel lines at a first fundamental frequency and a second pattern with parallel lines at a second fundamental frequency. The lower foil layer further includes a first section with a first pattern with parallel lines at the first fundamental frequency while the upper layer provides a second section with a second pattern with parallel lines at the second fundamental frequency. The overlaying of the foils causes an overlying of the first and second sections thereby causing a moiré pattern of the same wavelength as the reference pattern.

Abstract: A pressure application technique is provided that enables two objects to be pressurized (e.g., objects to be bonded) to be positioned with greater accuracy before having pressure applied thereto. The objects to be pressurized are moved relative to each other in a Z direction such that the objects are brought into contact with each other (step S13). Then, a horizontal positional shift ?D between the objects to be pressurized is measured in the contact state of the objects to be pressurized (step S14). Thereafter, positioning of the objects to be pressurized is again performed by moving the objects to be pressurized relative to each other in the horizontal direction, as a result of which the positional shift ?D is corrected (step S17).

Abstract: The invention encompasses analyzers and analyzer systems that include a single molecule analyzer, methods of using the analyzer and analyzer systems to analyze samples, either for single molecules or for molecular complexes. The single molecule uses electromagnetic radiation that is translated through the sample to detect the presence or absence of a single molecule. The single molecule analyzer provided herein is useful for diagnostics because the analyzer detects single molecules with zero carryover between samples.

Abstract: To process a signal from a plurality of detectors without being affected by a variation in the height of a substrate, and to detect more minute defects on the substrate, a defect inspection device is provided with a photoelectric converter having a plurality of rows of optical sensor arrays in each of first and second light-collecting/detecting unit and a processing unit for processing a detection signal from the first and the second light-collecting/detecting unit to determine the extent to which the positions of the focal points of the first and the second light-collecting/detecting unit are misaligned with respect to the surface of a test specimen, and processing the detection signal to correct a misalignment between the first and the second light-collecting/detecting unit, and the corrected detection signal outputted from the first and the second light-collecting/detecting unit are combined together to detect the defects on the test specimen.

Abstract: The present invention discloses a method for determining the presence of a drug or drug mixture in a liquid medium such as a beverage.

Abstract: Apparatus for performing Raman spectroscopy may include a first laser source having a first emission wavelength and a second laser source having a second emission wavelength. A separation between the first and second emission wavelengths may correspond to a width of a Raman band of a substance of interest. A switch may provide switching between the first and second laser sources. An ensemble of laser emitters may be provided. A Bragg grating element may receive laser light from the ensemble. An optical system may direct light from the Bragg grating element into an optical fiber. A combined beam through the optical fiber may contain light from each of the emitters.

Abstract: An optical device mounted on the interior of an aircraft for distinguishing the morphology of individual atmospheric particles, identifying them as water droplets, ice crystals, dust particles or volcanic ash, including a source of collimated, polarized light and providing this information to the flight crew to assist them in making informed decisions on conditions that might impact aircraft performance.

Abstract: A nozzle tip formed from a cylindrical body defining a longitudinal axis and a frustoconical body adjoining the cylindrical body on the longitudinal axis. The cylindrical body may be in fluid communication with the frustoconical body. The frustoconical body may end in a flat surface with a nozzle exit orifice which is transverse to the longitudinal axis. There may be a cutout at the edge of the frustoconical body and the flat surface. The flow cytometer system may also include a source of electromagnetic radiation for producing a beam incident upon the fluid stream and the particles and a detector for detecting light emitted or reflected from the particles within the fluid stream in response to the beam.

Abstract: A spectroscopy system for auto-aligning a biopsy collecting device is presented. The spectroscopy system includes an illumination subsystem configured to emit an illumination light towards the biopsy collecting device, whereas the biopsy collecting device includes an activator unit and a needle unit and wherein the needle unit includes a cannula and a stylet having a biopsy specimen. Also, the spectroscopy system includes a fixation subsystem capable of holding the biopsy collecting device and configured to place the needle unit comprising the biopsy specimen across the illumination light. Further, the spectroscopy system includes a detection subsystem configured to receive a light comprising at least one of an attenuated illumination light and a re-emitted light from the needle unit. In addition, the detection subsystem is configured to send a control signal to align the needle unit at a predetermined position in the spectroscopy system based on the received light.

Abstract: A high precision signal sensing system and method using an infrared light is provided. The high precision signal sensing system may receive, from a light emitting device, a plurality of lights including a first light and a second light, may measure intensities of the first light and the second light, and may measure a light emitting intensity of the light emitting device based on an intensity difference between the measured light receiving intensities.

Abstract: An optical divider is disposed, in front of at least one of the transmitter and receiver elements, therebetween, and at least one of a transmission and reception side, and has a plurality of optical dividing pieces each having an optical deflection surface on which an angle of a detection ray is varied to a plurality of angles for dividing the detection ray toward a plurality of division areas. The optical deflection surface on at least one of the transmission and reception side is set to have a given angle, to assign at least one of the detection ray from the transmitter elements and toward the receiver elements, to a given division area, such that a combination of the transmitter and receiver elements forming one of the division areas is different from a combination of the transmitter and receiver elements forming another one of the division areas.

Abstract: This invention describes a photonic sensing method and device based on the periodic dielectric structures of photonic forbidden band, in which the sensing process is carried out through the measurement of variation in signal amplitude as it exits the device. The variation in amplitude is due to a variation in the refraction index of the structure, as a consequence of the presence of the substances that are the object of the sensing. Among the advantages provided by the invention, it is worth mentioning its simplicity in the sensing process; its high level of integration, allowing for a design of reduced proportions; and its adaptability to dielectric structures of one, two or three dimensions.