Abstract: A scatterometer configured to derive a property of a substrate, includes an optical arrangement that produces a beam of radiation. An objective lens is arranged to focus the beam of radiation onto a target on the substrate. The optical arrangement is arranged to change the divergence of the beam incident on the objective lens, thereby changing spherical aberration caused by the objective lens on the beam focused on the target. A detection arrangement is arranged to detect the beam of radiation after reflection or scattering from the substrate.

Abstract: The invention relates to an imaging optical inspection setup for inspecting a sample (5). Said inspection setup comprises a source of light (3) illuminating a specified portion of the sample surface by non-collimated light (4) in a plane of illumination, at least one pinhole (7) arranged in a path of reflected light (4?) reflected from said portion and/or in a path of transmitted light (4?) travelling through the entire thickness of the sample (5) in said sample portion, said pinhole (7) extending at least in the plane of illumination, and at least one screen and/or at least one position-sensitive detector system (8) arranged in the path of light (4?, 4?) passing through said pinhole (7) and adapted to intercept said light (4?, 4?), said detector system (8) being susceptible of sensing light intensity distribution along at least a line.

Abstract: The present invention provides systems, apparatus and methods for detecting a film in an electronic device disposed in an electronic device processing tool. The invention includes a mounting member adapted to couple the apparatus to a view port of the electronic device processing tool, an optical energy source disposed within the mounting member and adapted to illuminate the electronic device within the electronic device processing tool, an optical system adapted to pass wavelengths indicative of a presence of the film, and an optical detector positioned to receive optical energy reflected from the substrate and passing through the optical system adapted to detect a presence or absence of the film. Numerous other features are disclosed.

Abstract: An optical sample is mounted on a spatial-acquisition apparatus that is placed in or on an enclosure. An incident beam is irradiated on a surface of the sample and the specular reflection is allowed to escape from the enclosure through an opening. The spatial-acquisition apparatus is provided with a light-occluding slider that moves in front of the sample to block portions of diffuse scattering from the sample. As the light-occluding slider moves across the front of the sample, diffuse light scattered into the area of the backside of the light-occluding slider is absorbed by back side surface of the light-occluding slider. By measuring a baseline diffuse reflectance without a light-occluding slider and subtracting measured diffuse reflectance with a light-occluding slider therefrom, diffuse reflectance for the area blocked by the light-occluding slider can be calculated.

Abstract: An apparatus for obtaining reflectance data of an object includes a diffuser having a surface. The apparatus includes a mapping portion that effects a mapping between a light field at the object's surface and a light field at the diffuser surface for BRDF capture of the object. A method for obtaining reflectance data usable to determine a plurality of values of the BRDF of an object. The method includes the steps of illuminating the object. There is the step of effecting a mapping between a light field at the object's surface and a light field at a diffuser surface for BRDF capture of the object with a mapping portion. An apparatus and a method for measuring an 8D reflectance field of an object or a 3D object.

Abstract: A three-dimensional flow cell for aligning non-isometric particles in a liquid sample in two axes, a method of aligning non-isometric particles in a liquid sample, the use of the three-dimensional flow cell, a reflectance sensor which has the three-dimensional flow cell according to the invention, a method of measuring the reflectance of a liquid sample containing non-isometric particles and the use of the reflectance sensor according to the invention.

Abstract: A diffuse optical tomography system incorporating a mode-locked, tunable laser produces pulsed light that may be used to interrogate tissue with high spatial and spectral resolution. The detection signal may be heterodyne shifted to lower frequencies to allow easy and accurate measurement of phase and amplitude. Embodiments incorporating wavelength-swept, tunable, lasers and embodiments using broadband photonic fiber lasers with spectrally-sensitive detectors are described.

Abstract: A method and/or an apparatus for controlling the register between print and three-dimensional structures, such as creases in the forming of a package, and a method and/or the apparatus for controlling a unit for repeated cutting-out or perforation of a material web from which the packages are formed. In the control, a focused, high intensive light beam, such as a laser line, is laid in a bisecting direction to relevant creases. The position of the crease or the creases is determined by sensing of a deflection of the projected laser line. Diffuse light from the laser line may be used in order to register the position of a register marking. If the difference between the register marking and crease differs more than a predetermined value, the creasing tool and/or printing press is automatically adjusted.

Abstract: A device is provided for optically measuring shapes and/or examining objects, comprising at least one camera, at least one lens, a scattering body and at least two light sources. The device is characterized in that the scattering body is opaque and that at least two light sources are disposed on the inside of the scattering body and illuminate the inside thereof, and that either only two light sources are used, which are disposed opposite from one another on an imaginary diameter line, or that the light sources are disposed at the corners of a—preferably equilateral—triangle or a cross.

Abstract: The invention relates to an analysis system for analysing a sample on an analytical test element. The analysis system comprises a measuring module for carrying out measurements on the sample on the analytical test element and an optical module which comprises a lens and a diaphragm by which the light can be focused. The lens and the diaphragm of the optical module are combined as one piece in a multi-component injection-molded part.

Abstract: Disclosed embodiments relate to an apparatus for detecting brain conditions. The apparatus for detecting brain conditions may include: a layer which is located adjacent to the brain of a living body; a light source which is formed on the layer and irradiates light to the brain; and an optical sensor which is formed on the layer adjacent to the light source and detects the light scattered from the brain. Since detection is possible at a location relatively adjacent to the brain, the apparatus for detecting brain conditions may improve accuracy and reliability of detection. The apparatus for detecting brain conditions may be used to detect brain conditions such as cerebral oxygenation, cerebral blood volume, cerebral blood flow, etc. or to monitor brain activities, or to diagnose and/or localize the disease foci in case of neurovascular disease such as stroke including hemorrhage or bleeding, into or around the brain or brain tumors or epilepsy, etc.

Abstract: A probe for a medical device with source and detector sensors is used to monitor or measure, or both, oxygen saturation levels in a tissue. In various specific implementations, the probe has at least two sources and at least one detector, at least one source and at least two detectors, and at least two sources and at least four detectors. A source of the probe is connected to at least one radiation source, which is external to the probe. A detector of the probe is connected to a photodetector, which is external to the probe.

Abstract: Automatic devices that determine when pollutant deposits have accumulated in ductwork may be employed to notify maintenance personnel or automated cleaning equipment of the need for ducts to cleaned or replaced. Various detection devices may be employed to detect a property of accumulated grease and generate an indication of an accumulation. The detection device may present a surface to the fume stream inside a duct. The surface may be cooled to a temperature that represents a worst case temperature so that the accumulation due to condensation on the detector surface is at least as high as the coolest surface in the ductwork which is being monitored. Alternatively, the detection device may be located external to the duct. The detection device may interrogate the surface of the duct through contact or noncontact measurements to determine the thickness of an accumulated grease layer on the interior of the duct.

Abstract: Systems and methods for inspecting a specimen with light at varying power levels are provided. One system configured to inspect a specimen includes a light source configured to generate light. The system also includes a power attenuator subsystem configured to alter a power level of the light directed to the specimen during inspection between at least two power levels including a full power level and a minimum power level equal to or greater than about 10% of the full power level. In addition, the system includes a detection subsystem configured to generate output responsive to the light scattered from the specimen. The output can be used to detect defects on the specimen.

Abstract: A method of imaging an optically thin sample is described wherein a collimated beam is directed through the sample and then reflected back through the sample one or more times. The beam is then directed toward a detector which collects and analyzes the spatial and spectral composition of the beam. In some embodiments, the detector is a focal plane array with a large number of detector elements. In other embodiments the relative position of a single detector or a small detector array and the sample is altered and the process is repeated, thereby tracing out a large virtual detector array. In either case, the spectral information received by the detector elements can be related, by methods which are elaborated below, to information about the spatial distribution of absorption in the sample.

Abstract: Improved performance in reflectance photometry is obtained by employing an optical fiber to direct collimated light to a test area and to return both diffuse and specular light from the test area. Specular light is prevented from reaching a light detector by a spatial filter, while diffuse light is collected and measured.

Abstract: An apparatus that can measure both haze and clarity on a web moving at conventional manufacturing speeds. The apparatus uses an integrating sphere and a novel mirror arrangement. With this arrangement, the invention can utilize a calibration curve created using known samples over the range of measurement desired to convert in real time, and the response of two photo detectors that measure the wide and low angle scattering signals, to deduce the desired optical property values. This approach significantly increases the speed and response of sensor and enables either on-line single point or full web scanning for uniformity measurement and control.

Abstract: A system is provided for measuring gloss and spatial dependence of gloss. In a first embodiment, the system comprises: a first illuminator configured to emit a first light beam at a point on a target, thereby producing a generally specular reflectance in a first direction; a second illuminator configured to emit a second light beam at the point on the target, thereby producing generally diffuse reflectance in the first direction; a linear array sensor configured to detect the generally specular reflectance and the generally diffuse reflectance in the first direction; and a processor configured to process the generally specular reflectance and the generally diffuse reflectance detected by the linear array sensor.

Abstract: An apparatus (1) for analysing surface properties, comprising a first radiation device (4) which emits radiation directly onto a surface (9) to be analyzed, a first illumination device (6, 7) for indirectly illuminating the surface (9) to be analyzed, a first radiation detector device (8) which receives at least part of the radiation thrown back from the surface (9) to be analyzed and outputs at least one signal which is characteristic of this part of the radiation. According to the invention, a radiation scattering device (10, 11) is provided which is at least partially illuminated by the first illumination device (6, 7) and which transmits scattered radiation onto the surface (9) to be analyzed.

Abstract: This invention relates to a method for the fabrication of photonic biosensor arrays and applications of arrays produced by the method in the biomedical field.

Abstract: Provided is a calibration apparatus for an optical scanner, including a substrate on which a molecule capable of forming an excimer is immobilized. A method of manufacturing the calibration apparatus and a method of calibrating an optical scanner using the calibration apparatus are also provided.

Abstract: Improved performance in reflectance photometry is obtained by employing an optical fiber to direct collimated light to a test area and to return both diffuse and specular light from the test area. Specular light is prevented from reaching a light detector by a spatial filter, while diffuse light is collected and measured.

Abstract: A surface inspection apparatus capable of acquiring scattered light intensity distribution information for each scattering azimuth angle, and detecting foreign matters and defects with high sensitivity. A concave mirror for condensation and another concave mirror for image formation are used to cope with a broad cubic angle. Since mirrors for condensation and image formation are used, a support for clamping the periphery of a lens is unnecessary, and an effective aperture area does not decrease. A plurality of azimuth-wise detection optical systems is disposed and reflected light at all azimuths can be detected by burying the entire periphery without calling for specific lens polishing. A light signal unification unit sums digital data from a particular system corresponding to a scattering azimuth designated in advance in the systems for improving an S/N ratio.

Abstract: The present invention provides a quantitative evaluation method of fouling of antifouling properties, a fouling evaluation apparatus, and a production method of optical members, which can be applied to various members, and haves high reproducibility and enable to detect a subtle difference between fouling, and an optical layered body having a property of preventing fingerprints from adhering, an anti-contamination property and a degree of recovery from fouling, and a display product including the optical layered body. The present invention pertains to an evaluation method of fouling, wherein light is radiated to a test sample and scattered light reflected off or passing through the test sample is detected to evaluate a degree of fouling of the surface of the test sample.

Abstract: Disclosed is a near field light generating device comprising a first medium layer which transmits light from a light source. This near field light generating device generates near field light by using light irradiating a plasmon probe through the first medium. This near field light generating device is characterized in that a second medium layer having a refractive index lower than that of the first medium layer is formed between the first medium layer and the plasmon probe.

Abstract: Provided is an optical sensor interrogation system. The optical sensor interrogation system includes: a light source unit which matches round-trip time of light and wavelength tunable cycle time of light in a resonator and emits light; a sensing unit which receives an optical signal in which a center wavelength periodically tunes, from the light source unit and tunes the center wavelength of the optical signal according to physical changes applied from the outside; and a signal processing unit which receives the optical signal reflected from the sensing unit, detects data, and images the data. In particular, the light source unit includes a delaying unit which delays the round-trip time of light and a tunable filter which tunes the wavelength of light so as to match the round-trip time of light with the wavelength tunable cycle time of light.

Abstract: The use of a high power and an incoherent light source to reduce noise associated when investigating unknown molecules in Surface Plasmon Resonance (SPR) systems. High power and incoherent light sources can improve resolution and accuracy of SPR system measurements.

Abstract: An apparatus for observing the appearance of the surface (2) of a sample (1), comprising a light source (11) for illuminating said surface (2) from a predetermined direction and means for observing the surface (2). The means of observing the surface (2) comprise a number of substantial flat mirrors (8) located in different directions with respect to said surface (2). The means furthermore comprise an optical system (6,14) for observing said flat mirrors (8). Each flat mirror (8) reflects an image of the surface (2) of the sample (1) to the image receiving part (6) of the optical system (6,14).

Abstract: An apparatus for optical body analysis is built with an illumination and detection head, and an optical coupler. The illumination and detection head comprises a light source for illuminating a body portion to analyze through the optical coupler and a detector for receiving light diffusely reflected by the body portion. The optical coupler is mechanically decoupled from the illumination and detection head and is adapted to be in contact with an outer surface of the body portion while the contact between the optical coupler and the body portion minimally affects physical properties of the body portion. The apparatus may further comprise a position unit adapted to adjust the position of the illumination and detection head relative to the optical coupler so that the detector receives through the optical coupler light generated by the light source and diffusely reflected by the body portion.

Abstract: A system and method for free space, optical remote sensing of a potential threat agent using spectrally responsive sensor material. In one example the sensor material is formed by particles, which in one particular form are porous photonic crystals. The particles are dispersed into an area being monitored for the presence of the potential threat agent. A pair of lasers is used to generate optical light beams that are directed at the sensor particles after the particles have been dispersed. The light reflected by the sensor particles is then analyzed. The presence of the potential threat agent causes a shift in the spectral peak of light reflected from the sensor particles that can be sensed using photo detectors and a processing subsystem. The system can be tuned to remotely detect for specific chemical, biological or environmental agents that may be present within a given area.

Abstract: A device for examining the optical properties of surfaces includes at least one first radiation device emitting radiation to a surface to be examined at least at a first predetermined spatial angle, at least one first detector for capturing the radiation emitted to and reflected back from the surface, wherein the detector, allowing a local resolution of detected radiation, is positioned at least at a second predetermined spatial angle relative to the surface. At least one spatial angle at which the radiation device and/or the detector are positioned, is variable and the radiation device and the detector are positioned in a space at least part of which exhibits light-reflecting properties.

Abstract: Methods are provided for detecting compression wood, blue stain, or pitch in lumber. A light beam is projected towards the wood sample. Line or area cameras acquire images of light that is reflected from the wood sample. Based on the intensity of the reflected light at one or more locations on the wood sample, compression wood, blue stain, or pitch may be detected.

Abstract: A device for origin of light absorbance used in an optical measuring instrument for measuring light absorption characteristics of a light diffusion sample. The device includes a light transmission terminal configured to irradiate a measurement light onto the light diffusion sample at a point of incidence of the light diffusion sample and a light diffusion plate through the interior of which the measurement light can be diffused and transmitted. A light receiving terminal is configured to receive the measurement light from the light diffusion sample for measurement at a point of detection of the light diffusion sample that is separate from the point of incidence. Optionally, the device can include a cleaning unit that cleans the light transmission terminal and light receiving terminal.

Abstract: A reflective scatterometer capable of measuring a sample is provided. The reflective scatterometer includes a paraboloid mirror, a light source, a first reflector, a second reflector and a detector. The paraboloid mirror has an optical axis and a parabolic surface, wherein the sample is disposed on the focal point of the parabolic surface and the normal direction of the sample is parallel with the optical axis. A collimated beam generated from the light source is reflected by the first reflector to the parabolic surface and then is reflected by the parabolic surface to the sample to form a first diffracted beam. The first diffracted beam is reflected by the parabolic surface to the second reflector and is then reflected by the second reflector to the detector.

Abstract: A device (10) is provided for measuring at least one characteristic (12) related to presence of particles. The device (10) includes a light source unit (16) for emitting light into a region (18) containing particles (20), with the light source being configured to emit light from a plurality of locations in a manner so that the emitted light follows a desired intensity distribution (22), the desired intensity distribution (22) being desired for the measurement of the at least one characteristic (12). In preferred embodiments the intensity distribution is Lambertian.

Abstract: A handheld color measurement device includes a housing in which an optoelectronic measurement unit is located which receives measurement light originating from a measurement object, converts it into corresponding electrical measurement signals and processes these measurement signals into preferably digital measurement data characterizing the color of the measurement object. It further includes passive components required for the realization of different application functions, such as measurement windows and reference standards, which can be selectively positioned into the measurement beam path of the measurement unit. The passive components are positioned in a first housing block (100) and the opto-electronic measurement unit as a whole in a second housing block (200).

Abstract: The invention relates to an examination apparatus and a method for the determination of optical coefficients, particularly of the optical absorption coefficient (?a) in an object (1) like the body of a patient. The apparatus comprises an ultrasonic scanner (20) for recording first and second pulse echoes before and after the object (1) has been illuminated with a heating light beam (11) from a (e.g. laser) light source (10). An evaluation unit (30) determines a map of temperature increase (?T(r)) caused by the heating light beam (11) inside the object (1) based on apparent displacements showing up between the second and first pulse echoes. Furthermore, the evaluation of locally adjacent temperature increases inside the object (1) allows to determine a map of the effective scattering coefficient (?eff(r)), from which the distribution of light intensity (I(r)) inside the object (1) can be calculated.

Abstract: The invention relates to a method of acquiring image data from a turbid medium (102) using a diffuse optical tomography device, comprising: —irradiating the turbid medium (102) at a plurality of first spatial positions (106), —collecting light emanating from the turbid medium (102) at a plurality of 5 second spatial positions (136), —splitting the light collected from each second spatial position (136) into at least two optical channels (140), —measuring the intensity of the split light in each optical channel of the at least two optical channels (140) using photo detectors (142),10 —reconstructing (152) an image of the turbid medium (102) from the measured intensities.

Abstract: The invention relates to a system for optical coherence tomography having an interferometer (20), a detector (30) with a first number of detector elements for collecting light, and an optical fibre (29) with a second number of individual fibres for transmitting light from the interferometer (20) to the detector (30). In order to increase the compactness of the system with at the same time high image quality provision is made such that the detector elements have a first centre-centre distance and the individual fibres have a second centre-centre distance, the first centre-centre distance between the detector elements being greater than the second centre-centre distance between the individual fibres.

Abstract: A reflective sheet detector includes first and second guide plates constituting a sheet travelling path, an emitter, a receiver and a reflecting portion. The emitter is disposed on a first side of the sheet travelling path and close to a first input opening of the first guide plate. The receiver is disposed on the first side and close to a first output opening of the first guide plate. The reflecting portion is disposed on a second side of the sheet travelling path opposite the first side and is close to the second guide plate. The emitter outputs a signal to the reflecting portion through the first input opening and a second input opening of the second guide plate, and the reflecting portion reflects the signal to the receiver through a second output opening of the second guide plate and the first output opening.

Abstract: A method for imaging objects through turbid media includes generating a repetitive pulsed light beam under control of a pulse shaper, propagating the light beam through turbid media, and receiving and imaging the light beam at a sensor. Propagation through turbid media causes scattering of the light, and the sensor captures scattered pulses to produce an image. The pulse shaper controls pulse width, frequency, repetition rate and chirp of the generated light pulses according to a feedback signal received from the sensor, to improve image quality. A system for imaging objects through turbid media includes a laser for generating a light beam; a pulse shaper for controlling said light beam, and a sensor, in communication with the pulse shaper, for capturing the image of said light beam through a turbid medium. Pulse width is less than 250 femtoseconds to reduce attenuation of the light beam through the turbid medium.

Abstract: Methods and apparatus for performing scatterometry measurements of biological samples as described herein. A substrate having formed therein one or more sample wells is provided. Each sample well is configured to hold a sample solution containing objects that are to be characterized based on their light scattering properties. One or more sample solutions are dispensed into the sample wells. A specular reflection reducing element is applied to at least some of the sample solutions in the sample wells to decrease reflections of light into one or more detectors. A light beam is directed from a light source onto the objects in the sample wells. Light scattered by the objects in the sample wells is collected and transmitted to one or more detectors. The signal from the detectors is analyzed to detect the one or more characteristics of the one or more samples.

Abstract: A method and apparatus for using an infrared reading to detect the misidentification of a diagnostic test strip disposed on a feed table comprising the steps of determining if the test strip possesses specified reagents, reading the infrared reflectances from the reagent positions, determining if the reflectances are within an acceptable predetermined range and aborting the test if the infrared reflectances are not within the acceptable predetermined range.

Abstract: A device for examining the optical properties of surfaces includes at least one first radiation device which emits radiation to a surface to be examined at a first predetermined spatial angle, at least one first detector device for capturing the radiation emitted to and reflected back from the surface wherein the first detector device, allowing a local resolution of detected radiation, is positioned at least at a second predetermined spatial angle relative to the surface, and at least one further radiation device or second detector device emitting radiation to the surface to be examined at a third predetermined spatial angle or detecting radiation emitted to and reflected back from the surface.

Abstract: Various systems for measurement of a specimen are provided. One system includes an optical subsystem configured to perform measurements of a specimen using vacuum ultraviolet light and non-vacuum ultraviolet light. This system also includes a purging subsystem that is configured to maintain a purged environment around the optical subsystem during the measurements. Another system includes a cleaning subsystem configured to remove contaminants from a specimen prior to measurement. In one embodiment, the cleaning subsystem may be a laser-based cleaning subsystem that is configured to remove contaminants from a localized area on the specimen. The system also includes an optical subsystem that is configured to perform measurements of the specimen using vacuum ultraviolet light. The optical subsystem is disposed within a purged environment. In some embodiments, the system may include a differential purging subsystem that is configured to provide the purged environment for the optical subsystem.

Abstract: Microgloss is a novel two-dimensional representation of how light is reflected from a target surface area. Systems and methods for measuring the microgloss can yield data for characterizing the reflective properties of a variety of products for which surface appearance is important. These products include paper, plastics, metals, and ceramics. Microgloss characteristics can be used as parameters for controlling the supercalendering process in papermaking. Microgloss characteristics can be used in conjunction with standard gloss to classify products.

Abstract: An optical measurement device for measuring the optical appearance of a surface (12) of a sample (10), in particular a surface (12) of a human skin, wherein the surface is at least partly translucent, comprising: an illumination device (18) for illuminating the surface (12) with an illumination beam (20), wherein the illumination beam (20) is generated from a radiation beam emitted from a radiation source (58), a detection device (56) for intercepting a response beam (30, 32), wherein the response beam (30, 32) is generated as a response of the sample (10) to the illumination beam (20), incident on the surface (12).

Abstract: There is provided an on-line detection system and method for a weld of a steel strip, which can emit a laser beam onto the surface of a steel strip moving at a high speed and measure the reflectivity of the laser beam reflecting from the same, thereby detecting the weld of the steel strip easily on-line. In the on-line detection system, reflectivity measuring means emits a laser beam onto a moving steel strip and continuously measuring the reflectivity of the laser beam returning from the surface of the steel strip, and signal processing means detects a weld of the steel strip based on change in the reflectivity measured on the weld.

Abstract: A light source for a reflectometer which is used in a chemical analyzer includes a plurality of light emitting devices. Some of the light emitting devices emit light of different wavelengths. The light emitting devices are arcuately arranged about a circle having a predetermined radius. Adjacent light emitting devices are spaced from each other a predetermined distance. The light emitting devices are positioned to direct light emitted therefrom to an illumination plane. At least two, but preferably three or four, of the light emitting devices emit light of substantially the same wavelength and are illuminated simultaneously to provide a volume of substantially homogenous irradiance at the illumination plane.

Abstract: A system and method for the detection and three dimensional imaging of absorption and scattering properties of a medium such as human tissue is described. According to one embodiment of the invention, the system directs optical energy toward a turbid medium from at least one source and detects optical energy emerging from the turbid medium at a plurality of locations using at least one detector. The optical energy emerging from the medium and entering the detector originates from the source is scattered by the medium. The system then generates an image representing interior structure of the turbid medium based on the detected optical energy emerging from the medium. Generating the image includes a time-series analysis.