Abstract: Seat members 31 are held in a state of being movable with respect to first slide members 21 or second slide members 22 correspondingly. By rotating screws 39 in directions to increase the distances d between surfaces A of the first slide members 21 or the second slide members 22 and surfaces B of the seat members 31, chucks 25 are moved in directions to increase the distance between the chucks to apply pretension to a test piece correspondingly. When backlash in a force transmission system from a support part to the respective chucks 25 is eliminated, a biaxial tensile test is started.

Abstract: An impact fatigue device includes a striker rod assembly configured to reciprocally move between an upstream position and a downstream position. The striker rod assembly includes a striker rod slidingly mounted on a support member and a trigger located upstream of the striker rod and adapted to move downstream to engage the striker rod and propel the striker rod downstream. An actuator assembly is located upstream of the striker rod assembly. The actuator assembly is configured to releasably engage the trigger and to translate the trigger upstream. A reset mechanism is configured to releasably engage the striker rod and to move the striker rod from the downstream position to the upstream position. A method of operating the impact fatigue device is also disclosed.

Abstract: A resonator that includes an elastic tube defining an interior surface and a conductor threaded through the elastic tube. Solid material fills space between the conductor and the elastic tube interior surface, such that motion of the conductor is directly transferred to the elastic tube. In a preferred embodiment, the elastic tube is electrically conductive and said solid material insulates said conductor from said elastic tube.

Abstract: A portable ambient air quality monitor having an enclosure to enclose and protect the monitor from an ambient environment and an airflow intake for controllably allowing ambient air to enter the monitor. A photodiode is disposed at a location downstream from a fan. The airflow from the fan is laminarized by a mesh or baffle to allow a thin stream of air to flow over the photodiode. A sensing region is defined by an intersection of an airflow sampling path and an optical path. The sensing region is also disposed above the photodiode. The airflow sampling path is configured to receive laminar airflow from the airflow intake and for directing the laminar airflow into the sensing region. A light beam is generated from a laser to reflect the light beam for reducing the required area of the sensing region to detect and measure the particles floating in the ambient air.

Abstract: Microfluidic system comprising a space for containing a liquid and at least one lateral chamber in communication with said space, said lateral chamber containing a metal electrode. The lateral chamber and the space are designed to be filled by the same or different liquid when the system is active.

Abstract: A round bar tensile test specimen for a sulfide stress corrosion cracking test of a steel, the specimen including a parallel section, a shoulder section, and a grip section. A sectional shape of the shoulder section being formed by a curve having two or more radii of curvature. A radius of curvature R1 (mm) of a portion of the curve adjacent to the parallel section being 15 mm or more, and the radius of curvature R1 (mm) satisfying (0.22??119)?R1?100 in terms of load stress ? (MPa) of the sulfide stress corrosion cracking test. A length X1 (mm) of the portion of the curve having the radius of curvature R1 in a longitudinal direction of the test specimen satisfying X1??{(r/8)×(R1?r2/4)}. Additionally, other radii of curvature of the curve being smaller than the radius of curvature R1.

Abstract: A method of laser bond inspection is provided. The method includes applying a thermochromatic energy-absorbing material to an inspection site of a test article. The method includes delivering a first amount of energy to the inspection site using a laser. The first amount of energy generates stresses in the test article. The method includes absorbing the first amount of energy into the thermochromatic energy-absorbing material to produce an observable thermal response that correlates to the first amount of energy.

Abstract: In a computer-implemented method and system for capturing the condition of a structure, the structure is scanned with a three-dimensional (3D) scanner. The 3D contact scanner includes a tactile sensor system having at least one tactile sensor for generating 3D data points based on tactile feedback resulting from physical contact with at least part of the structure. A 3D model is constructed from the 3D data and is then analyzed to determine the condition of the structure.

Abstract: A fluid-borne microorganism particle detecting device having a heating flow path wherein flows a liquid that includes a microorganism particle; a microwave emitting device for irradiating, with microwave radiation, the liquid that includes the microorganism particles within the heating flow path; an inspection flow path that is connected to the heating flow path; an excitation beam light source for emitting an excitation beam toward the inspection flow path; and a fluorescence detector for detecting fluorescent light emitted by microorganism particles in the inspection flow path that has been illuminated by the excitation beam.

Abstract: A flow cell including a flow cell bod having a flow path formed therein; an optically transmissive member disposed at a part wherein light from the light source is incident into, or emitted from, the flow path; a shock absorbing member that is disposed between the optically transmissive member and the cell body; an elastic member, made from a metal material, for pressing the optically transmissive member toward the cell body side; and a fastening tool, attached to the cell body, for positioning the elastic member.

Abstract: A laser vibrometer for measurement of ambient chemical species includes a laser that produces a beam that is split into a reference readout beam and a signal readout beam. A probe laser beam is tuned to an absorption feature of a molecular transition, and generates acoustic signals when incident on a gaseous species via the photo acoustic effect. The scattered acoustic signals are incident on a thin membrane that vibrates. The readout laser beam reflected from the vibrating membrane is mixed with the reference beam at the surface of a photo-EMF detector. Interferrometric fringes are generated at the surface of the photo-EMF detector. Electric current is generated in the photo-EMF detector when the fringes are in motion due to undulations in the signal readout beam imparted by the vibrating membrane. A highly sensitive photo-EMF detector is capable of detecting picoJoules or less laser energy generated by vibrating processes.

Abstract: A device for determining a concentration of at least one gas in a sample gas flow by infrared absorption spectroscopy. The device includes a gas cell which includes a thermal insulation, a chamber, a heating source arranged within the thermal insulation which heats the sample gas flow to a desired temperature, and a sample gas duct having an outlet. The sample gas duct is heated by the heating source upstream of the outlet. An infrared radiation source emits a radiation which is conducted through the chamber of the gas cell. The sample gas flow is conducted into the chamber and into the radiation. A detector has the radiation exiting the chamber conducted thereto to determine an absorption spectrum.

Abstract: A method of preparation and optical analysis of a solid sample by multiple internal reflection infrared spectroscopy comprising: obtaining a least one substrate that is transparent to infrared light and comprises at least a main front face and a main rear face; producing at least one solid sample on the main front face of the substrate; installing around at least one part of the sample an element comprising a chamber having an aperture that opens onto the solid sample and defines a leaktight interaction zone (Zi) in relation to the outside of the chamber; feeding the chamber with a fluid with controlled parameters to control the environment in the leaktight interaction zone; sending an infrared light beam through the substrate; and recovering the beam after it has undergone multiple internal reflections in the substrate.

Abstract: A method of inspecting a silicon article includes irradiating a silicon article with infrared radiation, transmitting a portion of the infrared radiation through the silicon article, and filtering the infrared radiation transmitted through the silicon article. Image data is acquired from the filtered infrared radiation and an image of the silicon article reconstructed from the image data. Based on the reconstructed image of the silicon article, one or more anomalies defined within the silicon article are identified.

Abstract: Apparatus and method for efficiently assessing the results of reflectance spectroscopy on a soil sample to determine the presence of contaminants in the soil, by constructing a model based on analysis of known samples. The model may be constructed using an all possibilities approach and data mining techniques, on a range of samples, for example of different kinds of soil without pollutants and with different levels of pollutants. The Disclosure relates both to the construction of the model and to its use in the field in analyzing soil contaminants.

Abstract: Biosensor comprising an activatable acceptor fluorogen linked via a linker to a donor which transfers energy to the fluorogen on detecting an analyte wherein the fluorogen component reacts and a 100 fold increase in intensity results when the fluorogen interacts non-covalently with an activator e.g. fluorogen activator peptide.

Abstract: Provided herein are compositions and methods including the step of thermally scanning a sample that can be used and implemented to detect the presence of and/or concentration of a molecule in a sample.

Abstract: Device and methods for detecting/quantifying a fluorescent taggant in a liquid sample. Generally, the liquid samples are fuels having low concentrations (measured in ppb) of a fluorescent taggant. The detection/quantification generates a predicted concentration of the fluorescent tagging compound using a process selected from the group of a multivariate process, a background subtraction process, or a combination of both. The invention addresses the detection of an adulteration of gasoline and diesel fuels.

Abstract: A method of forming a semiconductor structure includes forming a first optical waveguide and a second optical waveguide on a sapphire substrate. The first optical waveguide and the second optical waveguide each include a core portion of gallium nitride (GaN), and a cladding layer laterally surrounding the core portion. The cladding layer includes a material having a refractive index less than a refractive index of the sapphire substrate. The method further includes etching a portion of the cladding layer to form a microfluidic channel therein and forming a capping layer on a top surface of the first optical waveguide, the second optical waveguide and the microfluidic channel.

Abstract: An apparatus for detecting an object capable of emitting light. The apparatus includes a light source and a waveguide. The waveguide includes a core layer and a first cladding layer. At least one nanowell is formed in at least the first cladding layer. The apparatus further includes a light detector. The light detector can detect a light emitted from a single molecule object contained in the at least one nanowell.

Abstract: The present invention relates generally to a system and a method for thermo-optical measurements in a droplet of aqueous solution comprising particles of interest, the method comprising the following steps: providing the droplet of aqueous solution with a volume of less than 200 nl, wherein the aqueous solution is a first liquid and at least a part of the particles of interest are fluorescent particles; embedding the droplet of aqueous solution at least partly in a second liquid; irradiating a laser light beam into the droplet to obtain a spatial temperature distribution in the droplet around the irradiated laser light beam; exciting fluorescently said fluorescent particles and detecting fluorescence at least at one position or at around one position in the droplet or detecting the fluorescence distribution of said fluorescently excited particles, wherein said detection of fluorescence is performed at least once at a predetermined time after the start of the laser irradiation; and determining a characteristic

Abstract: A method comprising: providing a device for detecting a biological signature behind a glass surface using non-visible light is provided. A method of emitting one or more pulses of energy at a specific wavelength over a field of illumination towards a target area, filtering out one or more returning wavelengths from the target area, and determining, based on the filtering, if a combination of a fluorescence wavelength and a source wavelength is present, is also provided. An associated system is further provided.

Abstract: Surface enhanced Raman spectroscopy is employed to obtain chemical data with respect to cells while electrophysiological data relating to cell membranes is obtained using the patch clamp technique. A SERS-facilitating assembly is coupled to a micropipette and is used in conjunction with a monochromatic light source for generating scattered light. Surface enhanced Raman spectroscopy is employed to obtain the chemical data. Electrophysiological data is obtained using the same micropipette to perform the patch clamp technique.

Abstract: A surface enhanced Raman scattering (SERS) active nanoassembly comprising anisotropically assembled gold nanoparticles in a monolayer double row immobilized on a glass layer is disclosed. The discrete gold nanoparticles are separated by interparticle gaps of 0.5-10 nm that provide hotsites where appropriate excitation creates surface plasmon resonaces and regions of strong and localized electromagnetic fields that enhance Raman signal substantially, 104-1015 fold. An appropriate SERS apparatus comprising the nanoassembly for detecting an analyte is also disclosed. In addition, a method for producing the nanoassembly as well as the application of the nanoassembly or the apparatus comprising the nanoassembly in a method for measuring the SERS signal of an analyte is disclosed.

Abstract: This invention relates to the use of thermodynamically incompatible surfaces in agglutination assays for the express purpose of using the sample as a key component of the detection instrument. Specifically, the invention relates to formation of a lense and a virtual container for rapid mixing via thermal energy by a sample liquid disposed on a superhydrophobic surfaces, and a subsequent specific analyte or overall protein concentration assay using particles agglutination for use in the industrial, environmental, and clinical laboratory test fields.

Abstract: Parameters of a sample are measured using a model-based approach that utilizes the difference between experimental spectra acquired from the sample and experimental anchor spectra acquired from one or more reference samples at the same optical metrology tool. Anchor parameters of the one or more reference samples are determined using one or more reference optical metrology tools. The anchor spectrum is obtained and the target spectrum for the sample is acquired using the optical metrology tool. A differential experimental spectrum is generated based on a difference between the target spectrum and the anchor spectrum. The parameters for the sample are determined using the differential experimental spectrum and the anchor parameters, e.g., by comparing the differential experimental spectrum to a differential simulated spectrum, which is based on a difference between spectra simulated using a model having the parameters and a spectrum simulated using a model having the anchor parameters.

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 measureable 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 present disclosure provides an inspection device for continuously inspecting fed containers, in particular bottles, said inspection device comprising a feed device configured to feed containers thereto in succession, at least one inspection unit, configured to inspect the fed containers, a discharge conveying device configured to discharge the inspected containers, and a throughput station for the containers, which is arranged between the feed conveying device and the discharge conveying device, wherein the throughput station comprises a conveyor arrangement with an individual drive and a plurality of conveying units, which are movable by means of the individual drive individually and independently of one another, the conveyor arrangement being configured to convey the containers from the feed conveying device to the discharge conveying device.

Abstract: Systems and methods for controlling manufacturing processes for microelectronic components are provided. In an exemplary embodiment, a method includes determining a specification range for a desired parameter. The microelectronic component is processed in a manufacturing tool, and a trace data set is recorded during the processing. An estimated trace data parameter is determined with the trace data set, and a first measured value of the microelectronic component is measured in a measurement tool. An estimated desired parameter is determined using the first measured value and the estimated trace data parameter, and the manufacturing process is adjusted when the estimated desired parameter is outside of the specification range.

Abstract: After determining the precipitated oxygen concentration and the residual oxygen concentration in a silicon wafer after heat treatment performed in a device fabrication process; the critical shear stress ?cri at which slip dislocations are formed in the silicon wafer in the device fabrication process is determined based on the obtained precipitated oxygen concentration and residual oxygen concentration; and the obtained critical shear stress ?cri and the thermal stress ? applied to the silicon wafer in the heat treatment of the device fabrication process are compared, thereby determining that slip dislocations are formed in the silicon wafer in the device fabrication process when the thermal stress ? is equal to or more than the critical shear stress ?cri, or determining that slip dislocations are not formed in the silicon wafer in the device fabrication process when the thermal stress ? is less than the critical shear stress ?cri.

Abstract: Various examples of methods and systems are provided for traveling wave spot probes. In one embodiment, among others, a traveling wave spot probe includes one or more antennas positioned proximate to a coated surface. The one or more antennas can be configured to excite a surface traveling wave moving over an area under test by launching radio frequency (RF) energy at approximately a grazing angle to the coated surface under test. The one or more antennas can be positioned on a base placed proximate to the coated surface. The base can define the area of the coated surface under test. In another embodiment, a method for non-destructive testing of a coated surface includes positioning one or more antennas proximate to a coated surface and exciting a surface traveling wave over an area under test by transmitting RF energy via at least a portion of the one or more antennas.

Abstract: An imaging system can use high-energy electrons at a low dose level to generate 3D computed tomography images and/or 2D radiographic images of living tissue and other objects. In some embodiments, a nozzle directs a source of high-energy electrons to the imaging target, and a detector system detects physical quantities of electrons that interact with the imaging target. In some embodiments, a computer system can calculate estimated paths taken by individual electrons within the imaging target, determine interactions between voxels of a digitized image of the imaging target and individual electrons, and reconstruct a digitized image of the imaging target based at least in part on the determined interactions between individual electrons and voxels. The imaging target can include but is not limited to living tissue, humans, pediatric patients, small animals, and other objects, such as those used in industrial applications.

Abstract: This invention is intended to allow an experimenter to work at amenable temperatures while viewing and/or manipulating aqueous protein crystals or other specimens under a dissection microscope at close to 4° C. or other controlled temperatures. The invention provides a specimen stage chamber large enough to fit a multi-well plate containing the specimens. The temperature of this specimen stage chamber is controlled by transparent coolant circulated through its walls and through a transparent chamber beneath the specimen stage chamber, without blocking the light path of the microscope. An additional chamber cools the air above the specimen stage chamber. In one version of this apparatus, circulation of most coolants is replaced by an array of Peltier coolers. The apparatus is open to the air above, giving the experimenter direct access to the crystals for manipulation. The invention may have wider application for manipulation of other specimens under a microscope.

Abstract: For an x-ray apparatus comprising a goniometer with a detector circle rotatable about a goniometer axis, an actuator coupled to the detector circle for the motor-driven rotation thereof, a source arrangement with an x-ray source, a detector arrangement fastened to the detector circle and including an x-ray detector, and a sample position for a sample to be examined towards which the source arrangement and the detector arrangement are oriented, a compensation apparatus is provided that compensates for a torque about the goniometer axis produced by the weight of the detector arrangement on the detector circle. The compensation apparatus comprises a compensation motor coupled to the detector circle and a control device that actuates the compensation motor depending on a current position of the detector arrangement to apply a torque at least substantially equal and opposite to the torque produced by the detector arrangement.

Abstract: Disclosed is a method and system for integrating measurements from known laboratory techniques of fluid extraction (Dean Stark, Retort, Rock-Eval), which conducted independently by multiple disciplines and which have been so far treated as independent evaluations. In using these results, particularly Dean Stark and Retort, the oil industry has shown specific preferences between these two methods, with some groups advocating the validity of one method over the other, and others showing the opposite. Forums and discussions have been organized by the technical community to debate the benefits and drawbacks of each of these and to define which is the more suitable for reservoir characterization. Commercial laboratories have specialized in one method or the other based on their perceived validity. Both methods are correct, but each measure an incomplete assessment of the properties needed, and that together they provide considerable more information than when considered independently.

Abstract: The present disclosure relates to a method of characterizing the thermal ageing of a part made of composite material, in particular a composite material having an organic matrix. The method includes taking from the part a sample of composite material, subjecting the sample to modulated temperature differential calorimetry, determining, from the curve representing the total heat flow component associated with irreversible phenomena, the temperature at which a local extremum appears, this local extremum being characteristic of the thermal ageing, and determining the thermal ageing of the composite material by comparing the temperature at which the local extremum appears with a reference chart.

Abstract: The sensor device comprises a hotplate on a membrane. The hotplate is heated by a N-fold rotationally symmetric heater structure having N>1 heater elements of identical design. Each heater element comprises an inner section, an intermediate section and an outer section arranged in series, with the inner section having a larger electrical cross section than the outer section. This design allows to heat the hotplate to a homogeneous temperature at moderate supply voltages.

Abstract: A sensor system can be configured to perform dielectric spectroscopy (DS). For example, the system can include a sensor configured to measure dielectric permittivity of a fluid in response to an RF input signal. Associated interface electronics can include a transmitter to drive the sensor with the RF input signal and a receiver to receive and process an RF output signal from the sensor in response to the RF input signal.

Abstract: A biosensor system determines analyte concentration from analytic and/or secondary output signals. The biosensor system adjusts a correlation for determining analyte concentrations from output signals with one or more index functions extracted from the output signals. The index functions determine at least one slope deviation or normalized slope deviation from one or more error parameters. The slope-adjusted correlation between analyte concentrations and output signals may be used to determine analyte concentrations having improved accuracy and/or precision from output signals including components attributable to bias.

Abstract: A device for detecting chemical or biochemical substances in fluids for use in an electrochemical camera. The device includes a first carrier having a sensor array with a plurality of electrochemical sensors. A second carrier includes a porous layer having at least one functional region, in which specifically binding capturing molecules are immobilized. The at least one functional region is arranged directly adjacent to at least one non-functionalized region. Assigned to the at least one functional region and the at least one non-functionalized region are several sensors of the sensor array, for use as the electrochemical camera.

Abstract: A gas sensor element which has water-permeable electrodes, and water-impermeable leads connected to the electrodes A first electrode (133) has a space exposure portion (133b) exposed to internal space (160) of a gas sensor element (10) which communicates with an ambient atmosphere. A first lead (137) is connected to the first electrode (133). The first electrode (133) includes a first connection portion (133d) which is disposed at a position not exposed to the internal space (160) and connected to the first lead (137), and which is a portion of the first electrode (133) located most distant from the internal space (160). The entire first connection portion (133d) is located in a region A1 which extends from the internal space (160) over a distance of 1.0 mm or less. Also enclosed is a gas sensor including the gas sensor element.

Abstract: The disclosed invention relates to an amperometric gas sensor for measuring the concentration of an analyte, comprising: a solid support; and a working electrode in contact with the solid support; wherein the analyte comprises a dopant which when in contact with the solid support increases the electrical conductivity of the solid support. A sterilization process employing the amperometric gas sensor is disclosed.

Abstract: The disclosed invention relates to an amperometric gas sensor for measuring the concentration of an analyte, comprising: a solid support; and a working electrode in contact with the solid support; wherein the analyte comprises a dopant which when in contact with the solid support increases the electrical conductivity of the solid support. A sterilization process employing the amperometric gas sensor is disclosed.

Abstract: A protector includes an inside protector having an inside peripheral wall and a front end wall in a front end side thereof and a tubular outside protector which surrounds the inside protector. In an outside peripheral wall of the outside protector, a plurality of outside introducing ports through which an external part of the outside protector communicates with a gas separating chamber are formed at equal intervals along a circumferential direction. The outside introducing ports are formed at positions nearer to the front end side than positions where inside introducing ports of the inside protector are formed. The outside introducing ports extend in the circumferential direction of the outside peripheral wall and formed in shapes of lateral holes in which opening lengths in the circumferential direction are larger than opening lengths in the direction perpendicular to the circumferential direction.

Abstract: In one implementation, a chemical sensor is described. The chemical sensor includes chemically-sensitive field effect transistor including a floating gate conductor having an upper surface. A dielectric material defines an opening extending to the upper surface of the floating gate conductor. A conductive sidewall spacer is on a sidewall of the opening and contacts the upper surface of the floating gate conductor.

Abstract: Provided is a substrate modification method that enables improvement of reproducibility in measurement with use of capillary electrophoresis. The substrate modification method includes immobilizing, to a substrate surface, at least two types of modification groups selected from three types of modification groups that are a type of a modification group having one functional group, a type of a modification group having two to nine functional groups, and a type of a modification group having ten or more functional groups.

Abstract: A nanosensor for detecting molecule characteristics includes a membrane having an opening configured to permit a charged carbon nanotube to pass but to block a molecule attached to the carbon nanotube. The opening is filled with an electrolytic solution. An electric field generator is configured to generate an electric field relative to the opening to drive the charged carbon nanotubes through the opening. A sensor circuit is coupled to the electric field generator to sense current changes due to charged carbon nanotubes passing into the opening, and to bias the electric field generator to determine a critical voltage related to a force of separation between the carbon nanotube and the molecule.

Abstract: A method of wear detection of a coated belt or rope includes measuring an initial electrical resistance of one or more cords, strands or wires of the coated belt or rope. The initial electrical resistance is calibrated by repeating the measuring of initial electrical resistance and populating a database with the measured initial electrical resistance values. A true initial resistance is determined from the population of initial electrical resistances and subsequent measured values of electrical resistance of the one or more cords, strands or wires of the coated belt or rope.

Abstract: An ion mobility spectrometer or separator is disclosed comprises plural groups of electrodes, each group of electrodes comprising: (i) a first electrode connected to a first independently controllable voltage supply; (ii) one or more intermediate electrodes; and (iii) a second electrode connected to a second independently controllable voltage supply, wherein the first electrode, the one or more intermediate electrodes and the second electrode are interconnected by a series of resistors or other components so as to form a resistive divider so that the potential of the one or more intermediate electrodes is determined by the voltages supplied by the first and second voltage supplies and the resistance of the resistors; a drift region; a first device arranged and adapted to pulse a packet of ions into the drift region so that the ions are caused to separate temporally and assume one or more ion distributions; and a control system arranged and adapted: (i) to cause at least some of the independently controllable

Abstract: Apparatus for detecting a ferromagnetic object located on or in a person being screened comprises a first magnetic sensor which in use measures an ambient magnetic field or gradient within a first volume of space and produces a corresponding measurement signal, a primary power supply which provides power to the magnetic sensor, a signal processing circuit arranged in communication with the magnetic sensors configured to identify temporal variations in the measurement signal and from the identified temporal variations provide an output signal indicative of the presence of a ferromagnetic object within the volume of space, and a warning device operable by the output from the signal processing circuit to provide within the vicinity the apparatus at least one of an audible and a visible warning in response to the output signal from the signal processing circuit. The apparatus include a user operable input means which enables the warning device to be disabled by a user without powering down the magnetic sensors.