Abstract: A method and system for evaluating the reliability of data supplied by multi-function WFC sensors of tires of wheels of a vehicle for targeted applications, on the basis of the irregularities of the road, which use displacement data sent from the road handling adaptation equipment of the vehicle, enabling the variations in the road condition to be reflected. The system includes equipment for monitoring the wheel displacement data for adapting it to the variations of profile of the road on which it is traveling, in order to maintain a stable body position. The monitoring equipment is linked to the WFC sensors via a central processing unit which is capable of correlating data supplied by the WFC sensors and values of wheel displacement data supplied by the monitoring equipment for the purpose of weighting the values of at least one parameter obtained from the data delivered by the WFC sensors.

Abstract: Described is a wheel service machine (1) comprising: a shaft (3) rotating about a relative longitudinal axis (A), and a contact element (4), connected to the shaft (3) for rotating integrally with it and designed to make contact with the rim (2a) supported by the shaft (3); a locking device (5), which can be removably coupled to the shaft (3) and designed to slide relative to the shaft (3) along the longitudinal axis (A) and lock the rim (2a) interposed between the contact element (4) and the locking device (5); a fastening element (6) movably connected to the shaft (3) for moving parallel to the longitudinal axis (A) and designed for coupling with the locking device (5), for pulling it in movement; actuator (7) positioned on the machine and connected to the fastening element (6), wherein the locking device (5) comprises an emitter (8) designed for generating a wireless control signal, received by a wireless signal receiver (9) connected to the actuator (7), activates them for moving the locking device (5).

Abstract: A rigidity measurement device of a tread ring comprises a support jig for detachably holding a tread ring unit. The support jig has an open part for deformably exposing a measurement area, which is one portion of the tread ring, to the exterior, and a restraining part for essentially non-deformably restraining a non-measurement area, which is an area other than the measurement area of the tread ring. The restraining part inhibits deformation of the non-measurement area, whereby stress is no longer generated in the non-measurement area and the rigidity of the measurement area alone can be measured.

Abstract: Disclosed are ignition source testing systems and methods that utilize a foam with flammable components to indicate the presence of an ignition source on a test article (such as metallic components of a fuel system). Foam is applied to the test article and an energy discharge (such as a simulated lightning strike) is applied to the test article with the foam. The energy discharge may create an ignition source (such as an arc) on the test article that is sufficient to ignite the foam. Test methods comprise determining whether the foam ignited in response to the energy discharge. Test systems comprise the foam, the test article at least partially covered by the foam, and an energy source configured to discharge energy into the test article.

Abstract: A system for automatic real-time diagnostics for equipment that generates vibration and static equipment with a plurality of sensors installed on or mounted proximate to the equipment that generates vibration and static equipment, at least one peripheral intellectual measurement equipment (PIM) for collecting sensor data and removing signal noise or averaging collected sensor data from a sensor over time, a plurality of diagnostic stations receiving assembled data from the PIM comparing to threshold values for diagnostic features and generating diagnostic information and calculating technical states generate diagnostic prescriptions for each diagnostic feature, and generating simultaneously a Monitor, Trend, Analysis, Report, System and Oscilloscope Executive Dashboards.

Abstract: A check device is provided for a flight actuator primary load path failure detection device of the type that disconnects a position sensor from the primary load path in the event of a primary load path failure. The check device comprises: a mechanical linkage for simulating disconnection of the position sensor by permitting relative movement of at least first and second mechanical parts of the actuator that are unable to move relative to one another in normal use without failure of the primary load path, wherein these first and second mechanical parts, include a first mechanical part with movement detected by the position sensor of the primary load path failure detection device.

Abstract: An automated system for sampling seeds generally includes an automated sampling station having a sampler configured to remove material from a seed while protecting germination viability of the seed, a seed conveyor configured to receive the seed from out of the sampling station after the material is removed from the seed, and a sample conveyor configured to receive the material removed from the seed. The sample conveyor is configured to locate the material removed from the seed in a sample container, and the seed conveyor is configured to locate the seed from which the material is removed in a seed container so as to facilitate a one-to-one correspondence between the seed and the material removed from the seed.

Abstract: A method for conducting environmental sampling includes determining to environmentally sample a particular paper transit ticket for a specific residue. Using an automated ticket device, at least one chemical reagent is applied to the particular paper transit ticket. The chemical reagent is selected based on the specific residue. The particular paper transit ticket is collected after the particular paper transit ticket was used as a fare media within a transit system. The at least one chemical reagent is analyzed to determine whether any of the specific residue is present.

Abstract: Method for monitoring the odorous emissions of a plurality of zones (2, 3, 4, 5) of a given site (6); the method provides for the use of an electronic nose, and comprises a plurality of selective feeding steps, during each of which a respective sample coming from a relative zone is selectively conveyed to the electronic nose so as not to convey other gas samples coming from other zones to the electronic nose; according to some aspects of the invention, the selective feeding steps are repeated several times and the order of succession of the selective feeding steps is modified so as to control zones of particular interest more often.

Abstract: A biological sample processing apparatus having an enclosure. A plurality of sample processing modules are held by the enclosure. Each sample processing module is configured to hold a removable sample cartridge and to only perform sample processing on a sample within the corresponding removable sample cartridge. Each sample processing module is configured to perform at least one of a plurality of testing processes on the sample within the removable sample cartridge. At least one module in the apparatus is configured to perform nucleic acid amplification and detection.

Abstract: A solid composition comprising a homogenous cell block able to be used as a positive control for biomarkers in immunohistochemistry experiments, such as slide scanning and image analysis. The homogenous cell block is produced using a three layered vertical apparatus to create an evenly distributed suspension of FFPE cells, wherein the cells are mixed with 3% agarose while still rotating within the apparatus's middle layer. The injection of the cell mixture into a mold creates a homogeneous cell block where each cell, or ratio of different types of cells, is evenly distributed. The cell mixture within the cell block may further comprise: a mixture of the same type of cell with different genetic modifications; a mixture of the same type of cell with different protein or nucleic acids expression; and a mixture of different types of cells with different genetic backgrounds, and/or different expression level of genes and/or proteins.

Abstract: The present invention relates to an apparatus for preparing cell-derived artificial microvesicles, and more specifically, to an apparatus for preparing artificial microvesicles by allowing cells, which are concentrated using centrifugal force, to pass through a porous filter. Artificial microvesicles prepared according to the present invention maintains the structure of the cell membrane as it is, and contains cytoplasm by minimizing the loss of cytoplasm by using a buffer solution during preparation. Therefore, the artificial microvesicles prepared using the apparatus of the present invention is expected to be useful for applied research such as the diagnosis of diseases, drug delivery techniques and basic research.

Abstract: A load testing system comprising a load frame device adapted to load test one or more test specimens and to generate load test measurements; one or more environment controlling chambers adapted to be positioned within the load testing frame for subjecting the one or more test specimens to desired environmental conditions; one or more environment condition regulators adapted to be connected to the one or more environment controlling chambers for regulating the desired environmental conditions; a data acquisition device for receiving sustain load measurements of the one or more test specimens and environmental condition measurements to which the one or more test specimens are subjected during the load test; and a load monitoring device adapted to be connected to the data acquisition device for receiving and monitoring the sustain load measurements and the corresponding environmental condition measurements as a function of time.

Abstract: The invention relates to a design method of high-temperature nickel-based bolts based on damage tolerance theory, comprising the following steps: S1: acquiring operating parameters for the design; S2: selecting a material for bolts; S3: acquiring mechanical properties of the materials; S4: determining a pretension stress ?p of a single bolt; S5: determining the service stress ?s under the steady state; S6: determining the number n, the effective cross-section area A and the distribution of bolts; S7: determining a maximum allowable crack dimension; S8: calculating the maximum allowable service stress ?th using the crack propagation threshold Kth at the design temperature; S9: comparing the service stress ?s and the maximum allowable service stress ?th, if ?s is smaller than ?th, then the bolts are safe in the design life; otherwise, return to step S4 and reduce the pretension stress ?p.

Abstract: Proposed is a universal mechanical tester for measuring friction and wear characteristics of materials. The tester allows performing multiple test protocols with a single machine. The tester consists of a frame that supports a carriage moveable in a vertical direction, a force sensor assembly attached to the carriage, a positioning stage with a slide and a platform, and a plurality of modular sample stages interchangeably installable on the platform for executing linear and rotary motions of the lower sample relative to the upper sample in various directions and planes. The tester is provided with a set of electronic identification devices for identifying a modular sample stage installed on the platform and the force sensor assembly attached to the carriage.

Abstract: Process for evaluating the mechanical performance of a filler gel, comprising the step consisting in subjecting a sample of this gel to oscillating mechanical stresses making it possible to determine the elastic modulus G? and to deliver a score representative of the integration of G? over the stress and/or the deformation strain within a stress and/or strain interval that includes values of the modulus G? encountered beyond the linear viscoelasticity plateau.

Abstract: There is provided a microparticle sorting device that automatically optimizes a fluid stream. There is provided a microparticle sorting device that includes a voltage supply unit that supplies a driving voltage to a vibratory element that applies vibration to an orifice that produces a fluid stream, a charge unit that imparts charge to at least some droplets ejected from the orifice, deflecting plates, arranged opposing each other with the fluid stream S therebetween, that vary a travel direction of the droplets, and a first image sensor that acquires an image of the droplets passing between the deflecting plates.

Abstract: Detection of particles in a liquid beneficial agent contained within a container includes selectively illuminating at least a portion of the liquid beneficial, obtaining an image from the illuminated portion of the liquid beneficial agent, analyzing image data representing the image, using a data processor, to obtain a particle concentration, measuring an image intensity value of the image data using the data processor, and determining a quality level of the liquid beneficial agent using the data processor based on the particle concentration and the measured image intensity value.

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: Platelets or blood cells are detected in a fluid sample by adjusting a focal depth of a microscope through a range of values, the microscope having a mounted sample and an objective lens adapted with one or both of (a) a spherical aberration correction unmatched to a utilized cover plate for the sample, or (2) a numerical aperture unmatched to a utilized illumination source for the sample. Images are recorded at different specific focal depths and in multiple z planes of a fluid bearing the platelets, where the position of platelets may overlap on different of the multiple z planes that are recorded, the images recorded through the cover plate, thus causing the generation of a specific light-dark pattern indicative of platelets at particular positions and at multiple depths in the fluid media. The images are analyzed for the specific light-dark pattern.

Abstract: A particle manipulation system uses a MEMS-based, microfabricated particle manipulation device which has an inlet channel, output channels, and a movable member formed on a substrate. The movable member moves parallel to the fabrication plane, as does fluid flowing in the inlet channel. The movable member separates a target particle from the rest of the particles, diverting it into an output channel. However, at least one output channel is not parallel to the fabrication plane. The device may be used to separate a target particle from non-target material in a sample stream. In the event that the microfabricated particle manipulation device malfunctions as a result of a particle of debris becoming lodged in the microfabricated particle manipulation device, the system may invoke a recovery algorithm, that includes vibrating the microfabricated particle manipulation device using a pulse train at a frequency near its mechanical resonance.

Abstract: A system electronically monitors the consumption of gas adsorbent media in a media bed. The system includes a controller and a monitoring rod having a plurality of sensors disposed on the monitoring rod. The sensors are in communication with the controller. Each sensor includes a corrodible portion having an exposed electrically conducting material susceptible to corrosion by a corrosive agent, a first lead in electrical contact with a first end of the corrodible portion, and a second lead in electrical contact with a second end of the corrodible portion. The corrodible portion, the first lead and the second lead together form a continuous communication path to the controller, and the monitoring rod is at least partially disposed in the media.

Abstract: An integrated sampling and detecting device is provided. The device has a detector; a test strip holder, detachably provided in the detector; a collector, detachably contained in the detector; a faeces sample piece and a cushion block, for detachably sealing the collector; and a piercing part, provided on a bottom surface of the detector and configured to pierce the collector. The test strip holder and the collector are contained in the detector side by side. The collector is located between the test strip holder and the detector. A first outer side face of the collector is adjacent to an inner side wall of the detector. A second outer side face of the collector is adjacent to the test strip holder. A horizontal cross-section of the piercing part adapts to a bottom surface of the collector.

Abstract: The present invention relates to a probe unit comprising a probe (2) having a probe window (3) having a contact surface for facing a high pressure fluid flow, the probe unit comprising a probe housing (1) containing the probe including the probe window, the probe being moveable relative to the probe housing between a first position wherein the window is exposed to the fluid flow and a second position wherein the probe is enclosed by said housing and a space (11) is defined between said housing and said probe, said housing having an outer part into said fluid flow, said probe unit comprising sealing means (4, 5, 7) adapted to seal said defined space from said fluid flow when the probe is in said second position. The probe unit also comprises pressure adjustment means for reducing the pressure within said space and cleaning means (6, 9) for cleaning said probe when within said space.

Abstract: Disclosed is a low-cost, portable photo thermal spectroscopy (PTS) reader for use in detecting the presence of diseases in the bodily fluid of affected patients. The PTS reader is designed to be durable, easy to use and provide readings from the Lateral Flow Assay (LFA) with rapid results. Also provided are methods of use.

Abstract: A management method of a lubricating oil of the invention is a method of managing a lubricating oil by determining a degradation degree of the lubricating oil containing an antioxidant, specifically, according to determination methods a and b below. The determination method a includes: measuring an infrared ray absorption spectrum of the lubricating oil using a Fourier transform infrared spectrometer; and calculating a total content of the antioxidant and an altered substance having an antioxidant function to determine a deterioration degree of the lubricating oil from the obtained content. The determination method b includes: filtrating the lubricating oil with a filter; subsequently measuring a color difference of substances captured by the filter using a colorimeter, or measuring a color difference of the lubricating oil using the colorimeter; and determining a degradation degree of the lubricating oil and a mixture degree of foreign substances based on the obtained color difference.

Abstract: Implementations described herein comprise systems, apparatus and methods for calibration of imaging, radio frequency or spectroscopic instruments that can be used to validate, calibrate or confirm the calibration thereof. In one aspect, a calibration target is provided. The calibration target has a tissue interface and an instrument interface. The instrument interface has a first storage means having a first set of calibration data encoded therein and a second storage means having a second set of calibration data encoded therein. The first storage means and the second storage means are selected to comprise different storage modalities. Both the first and second set of calibration data are necessary to perform calibration of the instrument.

Abstract: The present invention has as its object the provision of a methane number calculation method that allows for readily acquiring a methane number of a natural gas, which is a sample gas to be measured, with acceptable reliability irrespective of toe gas composition, and as another object the provision of a methane number measurement device that is capable of monitoring the fuel property of a natural gas to be used as a fuel gas.

Abstract: An absorption spectrometer which measures a gas component concentration in a measured gas and which operates via wavelength modulation spectroscopy, wherein the light wavelength of a wavelength-tunable light source is periodically varied over a gas component absorption line of interest and simultaneously sinusoidally modulated with a high frequency and a low amplitude signal, and wherein the measurement signal of a detector is demodulated in a phase-sensitive manner at the frequency and/or a harmonic of the frequency and further analyzed, where modulation starts in each period or each n-th period with the frequency in a time interval before the beginning of the time function and is performed with a higher amplitude than during the time function to demodulate the measurement signal in a phase-synchronous manner, where a device provided for the phase-sensitive demodulation is synchronized during the time interval such that a cable for transmitting synchronization signals is no longer necessary.

Abstract: An optical sensor device which measures in a spatially resolving manner is disclosed. In order to devise such a sensor device with which a contacting measurement of the article to be measured can be carried out and which can be mass-produced, the sensor device is designed such that a transfer of the calibration onto individual sensor devices is possible with high accuracy. According to certain embodiments of the design of the sensor device and of the evaluation methods, interferences with the measurement of the amount of the target substance are minimized.

Abstract: A method for measuring turbidity and chlorine content of a liquid. The method includes shaking the liquid in a sample holder, using a shaker assembly, and removing bubbles including micro bubbles from the liquid using the micro-bubble removing shaker, retaining a sample volume of the liquid, and at least nearly simultaneously executing at least two of detecting illumination from the sample volume by a first detector operable for detecting illumination from the sample volume at a 90-degree angle with respect to an illumination beam generated by an illuminator and impinging on the sample volume, thereby measuring a turbidity of the sample volume, detecting illumination from the sample volume of liquid by a second detector operable for detecting illumination from the sample volume of liquid at a 180-degree angle with respect to the illumination beam, thereby measuring chlorine content of the sample.

Abstract: An apparatus that detects a material within a sample includes signal generation circuitry that generates a first light beam having at least one fractional orbital angular momentum applied thereto and applies the first light beam to the sample. The at least one fractional orbital angular momentum imparts a phase factor to the first light beam. The orbital angular momentum generation circuitry includes a spiral phase plate having fraction step height to impart the at least one angular momentum to the first light beam. A detector receives the first light beam after the first light beam passes through the sample and detects the material responsive to a detection of a predetermined phase factor within the first light beam received from the sample.

Abstract: An embodiment of the present disclosure discloses a method for detecting flatness of a fluorescent wheel in a laser light source, comprising: acquiring, during the rotation of a fluorescent wheel, a spot of laser light emitted by a laser reflected from a substrate of the fluorescent wheel; determining an inner diameter of the spot; and determining flatness of the fluorescent wheel according to the inner diameter of the spot.

Abstract: A hand-held biosensor including a housing having a lower handgrip portion and an upper target portion extending substantially perpendicular to the lower handgrip portion. An electromagnetic radiation emitter is received within the lower handgrip portion for emitting a laser beam toward a band pass filter received within the upper target portion. The band pass filter is configured to reflect the laser beam toward a target, and to permit passage therethrough of fluorescence emissions from the target. A photo-detector is received within the upper target portion of the housing and is configured to receive the fluorescence emissions from the target. A signal display is configured to provide an indication of fluorescence spectral data from the photo-detector. An adapter may be releasably coupled to the upper target portion of the housing for receiving atmospheric air.

Abstract: The invention provides a method of determining a measure of a density of markers in a sample, and an apparatus arranged for performing said method. In particular said method comprising the steps of: irradiating an illumination region of the sample with light, wherein the markers present in the illumination region of the sample emit fluorescence light in response to the irradiation with light, detecting an intensity of the fluorescence light from a detection region of the sample, comprising at least a part of said the illumination region, irradiating an area within said detection region of the sample with a focused charged particle beam to deposit a dose of charged particles in said area, and determining a measure of the density of markers in said area using a change of the detected intensity of the fluorescence light as a function of the deposited dose of charged particles in said area.

Abstract: A device (10) for illuminating a sample (40) is described, having: at least one pulsed laser light source (12) for repeated emission of a first laser pulse along a first light path (14) and of a second laser pulse along a second light path (16) physically separated from the first light path; a superimposition element (32) for collinear superimposition of the two laser pulses in a shared light path (34); a delay stage (26) arranged in the first or the second light path (14, 16), for delaying one of the two laser pulses relative to the other laser pulse in such a way that the two laser pulses sent along the shared light path (34) onto the sample (40) exhibit a temporal superimposition; a shared chirp unit (36) arranged in the shared light path (34), for frequency-modifying influencing both of the first laser pulse and of the second laser pulse; and at least one separate chirp unit (18) arranged in the first light path (14), for frequency-modifying influencing only of the first laser pulse.

Abstract: A SERS element 2 comprises a substrate 21 having a front face 21a; a fine structure part 24, formed on the front face 21a, having a plurality of pillars 27; a first conductor layer 31 formed on the front face 21a and fine structure part 24 so as to cover the front face 21a and fine structure part 24 continuously; and a second conductor layer 32 formed on the first conductor layer 31 so as to form a plurality of gaps G1, G2 for surface-enhanced Raman scattering; while the first and second conductor layers 31, 32 are constituted by the same material.

Abstract: The disclosure relates to a method for making a carrier for single molecule detection. The method includes: providing a substrate; providing a carbon nanotube composite structure having a number of micropores, wherein a number of carbon nanotubes are successively aligned and intersected to form the number of micropores; setting the carbon nanotube composite structure on a surface of the substrate; dry etching the substrate by using the carbon nanotube composite structure as a mask to form a patterned surface, wherein the patterned surface comprises a number of strip-shaped bulges intersected with each other; and applying a metal layer on the patterned surface. The method is simple and has high efficiency.

Abstract: Image data pertaining to substrate transfer is efficiently collected and stored for use in analyzing transfer errors. A substrate processing device includes a first control part for stopping a transfer part upon detecting a transfer error in the transfer part for transferring a substrate; a storage part for storing substrate transfer operations of the transfer part as image data; and a second control part for accumulating the image data in an accumulation part at a predetermined period. The first control part obtains information indicating a state of the substrate from the transfer part or a processing part, and notifies the second control part that the transfer part is stopped due to the transfer error. The second control part retrieves image data of a predetermined period of time including the time that the transfer error occurs from the accumulation part, and converts the image data into a file.

Abstract: Systems and methods are disclosed relating to composite photonic materials used to design structures and detecting material deformation for the purpose of monitoring structural health of physical structures. According to one aspect, a composite structure is provided that includes a base material, an optical diffraction grating and one or more fluorophore materials constructed such that localized perturbations create a measurable change in the structure's diffraction pattern. An inspection device is also provided that is configured to detect perturbations in the composite structure. The inspection device is configured to emit an inspecting radiation into the structure and capture the refracted radiation and measure the change in the diffraction pattern and quantify the perturbation based on the wavelength and the angular information for the diffracted radiation.

Abstract: The invention relates to fissure-detection agents for fault detection according to the penetration method of metallic and/or non-metallic components, which are a microemulsion comprising at least 10 wt. % of water A), at least 0.1 wt. % of at least one dye B), at least 5 wt. % of at least one substantially water-insoluble liquid phase C) and at least 2 wt. % of at least one surfactant D) selected from non-ionic, anionic and/or amphoteric surfactants, the sum of all constituents being 100 wt. %, wherein the fissure-detection agent has a mean particle size in the range of 1 to 250 nm and a transparency of at least 70% at 600 nm. The invention also relates to the production of said fissure-detection agents, to a process for their preparation or/and disposal, and their use.

Abstract: Disclosed are methods and apparatus for optimizing a mode of an inspection tool. A first image or signal for each of a plurality of first apertures of the inspection tool is obtained, and each first image or signal pertains to a defect area. For each of a plurality of combinations of the first apertures and their first images or signals, a composite image or signal is obtained. Each composite image or signal is analyzed to determine an optimum one of the combinations of the first apertures based on a defect detection characteristic of each composite image. In one aspect, determining an optimum one of the combinations of the first apertures includes selecting a set of one or more individual apertures that result in the highest signal to noise ratio for the defect area, and the method includes setting the optimum combination of the first apertures on the inspection tool and inspecting a sample using such optimum combination of the first apertures.

Abstract: A method capable of constructing an accurate three-dimensional image is offered. The method comprises the step (S10) of obtaining a first series of tilted images which are constituted by electron microscope images or elemental mapping images of a sample (S) at different tilt angles and which have been obtained by tilting the sample in angular increments, the step (S14) of obtaining a second series of tilted images which are constituted by electron microscope images or elemental mapping images of the sample at different tilt angles and which have been obtained by rotating the sample about an axis (P) perpendicular to a surface (Sf) of the sample and then tilting the sample in angular increments, and the step (S16) of constructing the three-dimensional image on the basis of the first and second series of tilted images.

Abstract: An adapter apparatus includes a generally cylindrical adapter body 14 including a channel 16 extending axially therethrough, the adapter body having an interior surface, bounding the channel, and an exterior surface 18, a generally circular external cross section and an interior cross section which is adapted to engage at least one object 10, the external surface being formed from a material which is capable of supporting a scanning or testing apparatus at a constant distance from the origin of the circle forming the external cross section.

Abstract: An inspection method determines values of profile parameters of substrate patterns. A baseline substrate with a baseline pattern target (BP) is produced that has a profile described by profile parameters, for example CD (median critical dimension), SWA (side wall angle) and RH (resist height). Scatterometry is used to obtain first and second signals from first and second targets. Values of differential pattern profile parameters are calculated using a Bayesian differential cost function based on a difference between the baseline pupil and the perturbed pupil and dependence of the pupil on pattern profile parameters. For example, the difference is measured between a baseline process and a perturbed process for stability control of a lithographic process. Fed-forward differential stack parameters are also calculated from observations of stack targets on the same substrates as the pattern targets.

Abstract: Methods of reconstructing the surface topography of an object embedded in a scattering medium are provided, with example methodologies including: imaging an object embedded in a signal scattering medium using a scattered signal detector; detecting changes in the magnitude of a plurality of scattered signals obtained from multiple fields of view within the medium; and constructing an image of the surface topography of the object based on said plurality of detected signal magnitude changes. A plurality of system, apparatus, control means, evaluation methods, and materials and components useful for practicing the methods are also disclosed.

Abstract: A multi-layer arrangement of III-V semiconductor layers includes a strained III-V semiconductor layer having a concentration of a constituent element which effects intensity of a conductive channel formed in the multi-layer arrangement. Lattice parameters of the strained III-V semiconductor layer are determined by generating a first scan in a Qx direction for a chosen reflection in reciprocal space based on diffracted X-Ray beam intensity measurements in the Qx direction. A second scan is generated in a Qz direction for the chosen reflection in the reciprocal space based on diffracted X-Ray beam intensity measurements in the Qz direction. The second scan is aligned with a diffracted X-Ray peak in the first scan which identifies the strained III-V semiconductor layer. The degree of strain of the strained III-V semiconductor layer is determined based on the first scan and the concentration of the constituent element based on the second scan.

Abstract: The invention relates to method for transferring under pressure a fluid extracted from the deposit by means of a sampling vessel (5) wherein the fluid sample is maintained at the reservoir pressure or extraction pressure, as well as to the method for determining at least one thermodynamic characteristic of this fluid, particularly a method for determining phase transition envelops. The invention also refers to a method combining the implementation of the scanning thansitiometry with spectroscopic or analytical techniques, eventually in the presence of a fluid in a supercritical state. The invention similarly refers to a device for implementation of the above-referred methods.

Abstract: A method for in-situ measuring electrical properties of carbon nanotubes includes placing a first electrode in a chamber, wherein the first electrode defines a cavity. A growth substrate is suspend inside of the cavity, and a catalyst layer is located on the growth substrate. A measuring meter having a first terminal and a second terminal opposite to the first terminal is provided. The first terminal is electrically connected to the first electrode, and the second terminal is electrically connected to the growth substrate. A carbon source gas, a protective gas, and hydrogen are supplied to the cavity, to grow the carbon nanotubes on the catalyst layer. The electrical properties of the carbon nanotubes are obtained by the measuring meter.

Abstract: Provided is a method for manufacturing a gas sensor according to an exemplary embodiment of the present invention including: a) forming a pair of photoresist electrodes spaced apart from each other and a photoresist wire connecting upper portions of the pair of photoresist electrodes to each other by exposing and developing a first photoresist coated on a substrate; b) forming a pair of carbon electrodes and a carbon wire that are connected to be integrated with each other, by pyrolyzing the pair of photoresist electrodes and the photoresist wire; and c) forming metal oxide nanowires on a surface of the carbon wire.