Abstract: Automated calcimeter systems and methods of using the same are described. An automated calcimeter system may comprise a reaction chamber; a pressure sensor coupled to the reaction chamber and configured to measure pressure in the reaction chamber; a pump coupled to the reaction chamber; piping coupled to the pump, wherein the piping is of sufficient length to store a preselected volume of acid; and a processor configured to instruct the pump to deliver the preselected volume of acid to the reaction chamber while also drawing a volume of gas from the reaction chamber, wherein the volume of gas is equivalent to the preselected volume of acid.

Abstract: A method of preparing a polymer article comprising determining a zero-shear viscosity for a polymer sample; sieving the polymer sample to produce a plurality of sieved polymer samples; determining a molecular weight distribution for each of the plurality of sieved polymer samples; determining a zero-shear viscosity for each of the plurality of sieved polymer samples; determining a compositional diversity of each of the plurality of sieved polymer samples based on a ratio of the zero shear viscosity for each of the plurality of sieved polymer samples to the zero shear viscosity for the polymer sample; identifying a polymer sample having a ratio of the zero shear viscosity to zero shear viscosity for the polymer sample of from about 0.5 to equal to or greater than about 3; and preparing a polymer article from the identified polymer sample.

Abstract: A method for determining soot in exhaust gases of burners or internal combustion engines with the aid of a sensor element which includes at least two measuring electrodes exposed to the exhaust gas and one heating element, a voltage being applied to the at least two measuring electrodes during a measuring phase and the current flow or electrical resistance occurring between the measuring electrodes being determined and output as a measure for the particle concentration or the particle mass flow, characterized in that during the measuring phase, the temperature of the sensor element is monitored and the sensor element is heated by the heating element, if the temperature of the sensor element falls below a limiting temperature.

Abstract: Determining a barrier effect of a coating for a medium includes: providing a substrate having the coating on its surface, the substrate undergoing a volume change on contact with the medium; conditioning the substrate with the coating; removing the coating from a first part of the surface, leaving the coating on a second part, the first part having an extent in a first direction delimited by the coating remaining on the second; determining a height profile of the coating on the second part and the first part on a path in the first direction; exposing the remaining coating and the first part to the medium; determining a second height profile of the coating on the second part and the first part on the path in the first direction and/or determining a difference in height profile on the second and first part with respect to the height profile determined beforehand.

Abstract: A detector mask transmits selectively a plurality of probe particles to a particle detector, the detector mask includes: a plate including a plate wall disposed in the plate and enclosing a transmission orifice arranged in a transmission profile to: transmit probe particles having a trajectory coincident with the transmission orifice, block probe particles having a trajectory external to the transmission orifice, and form a probe particle beam comprising the probe particles transmitted by the transmission orifice to the particle detector, wherein the transmission profile includes a sector, a semi-circle, an annular sector, or a combination including at least one of the foregoing first transmission profiles.

Abstract: A detector mask transmits selectively a plurality of probe particles to a particle detector, the detector mask includes: a plate including a plate wall disposed in the plate and enclosing a transmission orifice arranged in a transmission profile to: transmit probe particles having a trajectory coincident with the transmission orifice, block probe particles having a trajectory external to the transmission orifice, and form a probe particle beam comprising the probe particles transmitted by the transmission orifice to the particle detector, wherein the transmission profile includes a sector, a semi-circle, an annular sector, or a combination including at least one of the foregoing first transmission profiles.

Abstract: An automatic analysis device provided with: a sample disk mechanism; a reaction disk for accommodating the reaction cells; reagent disk mechanisms; a sample-supplying dispensation mechanism which supplies samples to the reaction cells; a reagent-supplying dispensation mechanism which supplies prescribed amounts of reagents to the reaction cells; a detection unit which irradiates, with light, the reaction cells having, formed therein, mixed solutions of the samples and the reagents, and detects the light transmitted through the reaction cells to detect the optical characteristics of the mixed solutions; a pollution prevention film formation mechanism which supplies a pollution preventing solution to the reaction cells to form pollution prevention films on the inner wall surfaces of the reaction cells; and a pollution prevention film removal mechanism which supplies a removal solution to the reaction cells to remove the pollution prevention films from the inner wall surfaces of the reaction cells.

Abstract: In polarization-sensitive optical image measurement, noise-containing OCT signals obtained by polarization OCT are processed using a birefringence calculation algorithm, to obtain measured birefringence, after which noise is statistically adjusted to simulate a measured birefringence distribution and determine the noise characteristics of the measured birefringence values, and then Monte Carlo calculations are repeated by assuming different values for the noise level and the true birefringence value, respectively, to form three-dimensional histogram of combinations of true birefringence values, SN ratios, and measured birefringence values, after which specified measured birefringence values and SN ratios are assumed from the three-dimensional histogram information to obtain a true birefringence probability density distribution, and true birefringence values are estimated from the true birefringence probability density distribution.

Abstract: An inline concentration measurement device comprises: a measurement cell main body with a gas flow path formed; a light incident part with a window member connected to the main body; and a light receiving part with a window member connected to the main body, wherein the gas flow path includes a gas flow path for an optical path extending straight between the window members of the light incident part and the light receiving part, a first communication part making a gas inlet formed in the main body communicate with the gas flow path part for the optical path, and a second communication part making a gas outlet formed in the main body communicate with the gas flow path part for the optical path, and the first communication part obliquely extends from the gas inlet towards the window member of the light incident part.

Abstract: An oil concentration measurement system and method measure the concentration of oil over a wide concentration range and is applicable in a continuous measurement of oil concentration. A measurement-target liquid containing a known kind of oil component, absorbance spectrum is measured within a predetermined waveband where absorption of light is observed. If a predetermined criterion is met, a concentration value of the oil component is determined based on absorbance at a predetermined wavelength within the predetermined waveband and also on a first calibration curve showing relationship between the component concentration and absorbance at the predetermined wavelength.

Abstract: The invention relates to analytical chemistry, in particular, to the spectral absorption analysis with a differential method of measuring concentrations of mercury and benzene vapors. The invention is aimed at creation of an absorption analyzer, which allows to determine the content of mercury and benzene in the carrier gas, with improved analytical performance for benzene.

Abstract: An image analysis apparatus includes: a calculator that generates, on the basis of a plurality of sample images obtained by irradiating a biological tissue with light having N wavelength bands selected from a wavelength bandwidth from 950 nm or more to 1600 nm or less as a predetermined wavelength bandwidth, sample data on the tissue in the predetermined wavelength bandwidth; and a data generator that compares the sample data with training data on a substance that is a training target, to generate distribution data indicating a distribution of the substance in the tissue.

Abstract: A method for quantifying the amount of ammonium bicarbonate in a solid sample of ammonium carbamate is provided. The method includes measuring the FT-IR spectrum of the sample, calculating the IR band maximum for a first band that is common to ammonium carbamate and ammonium bicarbonate and for a second band that is unique to ammonium carbamate, calculating a ratio of the maximum of the second band to the maximum of the first band, and calculating the concentration of ammonium bicarbonate in the sample from a calibration curve.

Abstract: The method of determining a variable of interest associated with a sample having a quantity of organisms received in a container, the method comprising the steps of: acquiring, from a camera, an image the sample in the container; and determining a value of the variable of interest associated with the sample using the image.

Abstract: The present invention relates to a heavy metal ion detection method and sensor which can ascertain the presence of heavy metal ions based on a precipitation reaction with a reaction solution without using a receptor and is reusable after being washed. The heavy metal ion detection method includes: mixing a sample containing heavy metal ions with a reaction solution capable of forming a precipitate through reaction with the heavy metal ions on a dielectric substrate with metal nanoparticles attached thereto to form a precipitate; and measuring change in LSPR absorption wavelength of the metal nanoparticles before and after mixing to calculate a concentration of the heavy metal ions.

Abstract: A method of fluorometrically detecting the concentration of chemical components in oxidizing formulations is disclosed. In a particular embodiment the detection is of the stabilizing component of picolinic acid, present in such formulations, although any component which fluoresces may be detected. According to the invention sample preparation of the oxidizing formulation includes adding to said sample an excess of reducing agent to bind peracid, and in the case of picolinic acid, adding to said sample an excess of terbium chloride. The sample then is subjected to radiation to induce fluorescence and the concentration of said chemical component is determined by a linear relationship between fluorescence emitted and the concentration of the target chemical.

Abstract: A breath analysis system that includes a handle assembly with an analysis cartridge on an upper end thereof. The handle includes a main body portion with a pressure opening and a pressure transducer therein. The analysis cartridge includes a main body portion with an upper portion that defines a breath chamber, a lower portion that defines a fluid chamber and a filter assembly that is movable between a breath capture position and an analysis position. The filter assembly has an opening defined therethrough. In the breath capture position, the opening partially defines the breath chamber and in the analysis position the opening partially defines the fluid chamber. The system also includes an analysis device with a case, a door, a controller that controls the motor and a fluorescence detection assembly and a rotation assembly positioned in the case interior. The rotation assembly includes a shroud with a funnel portion for receiving the analysis cartridge.

Abstract: A method of detecting a condition in a subject comprises the steps of contacting cells of the subject with single-walled carbon nanotubes (SWCNTs), monitoring photoluminescence emitted by SWCNTs internalized into the cells and generating an SWCNT emission profile, comparing the SWCNT emission profile to a control emission profile for the SWCNTs to produce a result, and determining a likelihood of having the condition in the subject based on the result from the comparing step. Also disclosed is a method for screening agents capable of changing endocytic environment using SWCNTs.

Abstract: The present invention relates to nanograting sensor devices and fabrication methods thereof. The nanograting sensor device includes a light transmissive optical component comprising a plasmonic thin film with nanostructure patterns. The nanostructure has a smooth shape profile which can enhance the efficiency of plasmonic coupling and light transmission and increase the sensing ability. Methods of the present invention provide a means of fabricating such plasmonic thin film structures. The sensor described in the present invention utilizes the changes of the plasmonic resonances to detect analytes and/or determine the concentration of analytes at the plasmonic thin film surface or in the fluid near the plasmonic thin film surface.

Abstract: A disposable set (100) includes a tube; and a sensing member (104) press-fittingly insertable into the tube, the sensing member including: a first end (106) having a first diameter and including at least one through hole (112) positioned along a perimeter of the first end; a second end (108) having a second diameter and including at least one through hole positioned along a perimeter of the second end, the first diameter and the second diameter being substantially equal to an interior diameter of the tube; and a middle portion (110) located between the first end and the second end having a diameter that is less than the first diameter, the middle portion including at least one SERS sensing element (114), wherein the through holes in the first and second ends enable fluid to pass through the sensing member.

Abstract: Provided are a method for analyzing nitrogen in a metal sample, an apparatus for analyzing nitrogen in a metal sample, a method for adjusting nitrogen concentration in molten steel, and a method for manufacturing steel. The method includes: a melting process in which a metal sample containing a nitrogen component is melted in an argon gas atmosphere by performing impulse heating to gasify the nitrogen component; and an analyzing process in which nitrogen content in the metal sample is determined by analyzing nitrogen gas generated in the melting process and the argon gas by using a gas discharge optical emission method. By analyzing the nitrogen concentration of a sample taken from molten steel by using the analysis method described above, and by determining treatment conditions for adjusting nitrogen concentration on the basis of the nitrogen analysis value derived by the analysis, nitrogen concentration in molten steel is adjusted.

Abstract: Described is an elemental analysis system and methods for use thereof that can be utilized in examination of samples in their native state. The systems utilize a liquid sampling—atmospheric pressure glow discharge (LS-APGD) device for ambient desorption sampling and excitation of a solid sample in combination with optical emission detection. This approach can find application across a broad spectrum of analytical challenges including metals, soils, and volume-limited samples.

Abstract: An inverse photoemission spectroscopy apparatus is configured to detect a light generated by the relaxation of electrons to an unoccupied state of a sample. The apparatus includes an electron source for generating electrons with which a sample is irradiated, a wavelength selector for extracting a light having a certain wavelength from the light generated in the sample, a photodetector for detecting the light extracted by the wavelength selector; and a focusing optics disposed between the sample and the photodetector. The electron source contains yttrium oxide as a thermionic emission material.

Abstract: A method of creating quality grade discrimination criteria in a discrimination device that determines appearance quality grades of granular materials in accordance with the present invention includes a granular material placement step of sorting the granular materials on a per-quality-grade basis and placing the granular materials on an image-capture surface of the image-capturing unit; an imaging data acquisition step of capturing images of the granular materials placed on the image-capture surface by the image-capturing unit and thereby obtaining imaging data; a quality grade information acquisition step of obtaining, on a per-quality-grade basis, pieces of quality grade information on the respective granular materials on the basis of the imaging data; and a quality grade discrimination criteria creation step of creating quality grade discrimination criteria by using the quality grade information obtained on a per-quality-grade basis.

Abstract: The invention relates to a method and a device for the rapid and reliable measuring of distortion defects in a manufactured float glass strip, having the following features: a) a linear inset LED light source (5) sweeping the breadth of the glass strip (4) to be examined, said light source having LEDs that are tightly packed one next to the other below a glass strip (4) to be examined, b) a linear cylindrical lens 8) which is arranged in parallel to the entire length of the inset LED light source (5) and the distance of which to the inset LED light source (5) is continuously variable, c) a light source (2) arranged above the glass strip (4), d) an array of at least 4 CCD cameras arranged above the glass strip (4), and a two-stage parallel signal evaluation unit.

Abstract: Exemplary imaging systems, apparatus, and methods may include a plurality of reconfigurable antenna assemblies. The reconfigurable antenna assemblies may each include one or more antennas. The antennas may be configured in a plurality of states including a passive state in which the antenna may not perturb the electromagnetic field. The antennas may be positioned about a measurement domain such as, e.g., a conductive measurement chamber.

Abstract: A system and an apparatus are provided to measure magnetic characteristic of crystal grains composing magnetic polycrystalline materials in the magnetic field or nonmagnetic field by X-ray magnetic circular dichroism (XMCD). In particular, the system and the apparatus measure the magnetic characteristic of comparatively very thick materials.

Abstract: A method for X-ray scatterometry includes receiving a first distribution of an X-ray beam scattered from a sample. The first distribution exhibits asymmetry with respect to a reference axis. A correction is applied to the first distribution, so as to produce a second distribution in which a level of the asymmetry is reduced relative to the first distribution. One or more parameters of the sample are estimated based on the second distribution.

Abstract: A method for generating cross-sectional profiles using a scanning electron microscope (SEM) includes scanning a sample with an electron beam to gather an energy-dispersive X-ray spectroscopy (EDS) spectrum for an energy level to determine element composition across an area of interest. A mesh is generated to locate positions where a depth profile will be taken. EDS spectra are gathered for energy levels at mesh locations. A number of layers of the sample are determined by distinguishing differences in chemical composition between depths as beam energies are stepped through. A depth profile is generated for the area of interest by compiling the number of layers and the element composition across the mesh.

Abstract: A sensor cell has a chamber that defines an internal sensor volume for a sensor fluid in a vapor phase. A signal path extends into the internal sensor volume. The sensor cell includes a condensation reservoir for a condensed phase of the sensor fluid, in fluid communication with the internal sensor volume. The signal path is spatially separate from the condensation reservoir. During operation of the sensor cell, some of the sensor fluid may be converted to a vapor phase in the internal sensor volume. During such operation, sensor fluid in the condensed phase is disposed in the condensation reservoir, advantageously out of the signal path, leaving the signal path desirably free of the condensed phase sensor fluid. During periods of non-operation, a significant portion of the sensor fluid may condense from the vapor phase to the condensed phase in the condensation reservoir, advantageously out of the signal path.

Abstract: In an embodiment, a method comprises fitting a spectroscopic data of a layer in a layered structure to a dielectric function having a real part and an imaginary part; confirming that the dielectric function is physically possible; based on the dielectric function not being physically possible, repeating the fitting the spectroscopic data, or, based on the dielectric function being physically possible, defining an n degree polynomial to the dielectric function; determining a second derivative and a third derivative of the n degree polynomial; equating the second derivative to a first governing equation and the third derivative to a second governing equation and determining a constant of the first governing equation and the second governing equation; and based on the key governing equations, determining one or more of a band gap, a thickness, and a concentration of the layer.

Abstract: Approaches include selecting a desired location for the measurement of electromagnetic spectroscopic impedance data for correlation with a physical property of a material under test (MUT) with electromagnetic impedance tomography. The MUT is first characterized tomographically with a series of four-terminal electrode patterns at a single current frequency. Measured and computed values of electromagnetic impedance for the voxels and sub-voxels of the MUT are determined. The sub-voxel with a targeted value of impedance is selected and matched with the specific four-terminal electrode pattern related to that sub-voxel. The spectrographic electromagnetic impedance measurements are made across a range of frequencies for the selected sub-voxel, using all of the four-terminal electrode patterns required to compute the tomographic impedance value of the selected sub-voxel. The computed spectrographic electromagnetic impedance value for the selected sub-voxel is then correlated to a physical property of the MUT.

Abstract: A tool having two current electrodes, three or more voltage electrodes, and a measurement device capable of making electrical measurements is provided, along with a sample. With electrical connectivity to the sample, one current electrode is disposed at one location on the sample while the other current electrode is disposed at another location on the sample, and the three or more voltage electrodes are disposed on the sample intermediate the two current electrodes. An electric current is passed through the sample. The measurement device is used to make a first set of electrical measurements that involve a first pair of voltage electrodes and to make a second set of electrical measurements that involve a second pair of voltage electrodes. The first set of electrical measurements is compared to the second set of electrical measurements. It is inferred whether the sample has heterogeneous electrical properties using the compared electrical measurements.

Abstract: A moisture detecting apparatus includes a pair of current electrodes, a pair of potential electrodes, a frequency allotting section, a resistivity calculating section, and an estimation section. The frequency allotting section allots frequencies at regular frequency intervals ?F in a range between first and second frequencies F1 and F2 (>F1) to a frequency of an alternating current. Each time a frequency is allotted, the resistivity calculating section calculates a resistivity value ? in a predetermined region of the ground using a current value A detected by the current electrodes and a voltage value V detected by the potential electrodes. The estimation section obtains a maximum value ?1 and a minimum value ?2 among resistivity values ? and estimates such that the smaller a quotient (?1/?2) obtained by dividing the maximum value ?1 by the minimum value ?2 is, the more moisture the predetermined region contains.

Abstract: A detection device includes: a frequency property acquisition unit that acquires a frequency property when an alternating-current signal is input to at least two conductive bodies provided on a fiber sheet; and a detection signal output unit that outputs a detection signal when the frequency property acquisition unit acquires a predetermined frequency property.

Abstract: An optical module includes first and second transparent substrates and a spacer between the first and second transparent substrates, holding the first transparent substrate in proximity to the second transparent substrate, with first and second diffractive optical elements (DOEs) on respective faces of the first and second transparent substrates. At least first and second capacitance electrodes are disposed respectively on the first and second transparent substrates in proximity to the first and second DOEs. Circuitry is coupled to measure changes in a capacitance between at least the first and second capacitance electrodes.

Abstract: A reference electrode assembly for an electrochemical sensor, in particular for a potentiometric sensor, comprising a reference half-cell space having a reference electrode provided therein, the reference half-space comprising a storage space in which a reference electrolyte is provided at any rate in a storage state of the reference electrode assembly, the reference half-cell space further comprising a lock space that is permeable at any rate with respect to the passage of reference electrolyte into an environment of the reference half-cell space, the storage space, in the storage state of the reference electrode assembly, being separated from the lock space with respect to the passage of reference electrolyte, the reference electrode assembly being designed such that a connection permeable for the passage of reference electrolyte from the storage space to the lock space can be created between the storage space and the lock space in order to transfer the reference electrode assembly from the storage state to

Abstract: The present invention relates to a prostate screening module and the method for operating the same. It uses nanometer-grade nickel oxide as the screening film. By contacting nickel oxide with hydrogen peroxide having various concentrations, the surface potential of nickel oxide will be changed and resulting in voltage shift, which can be used to judge the concentration of hydrogen peroxide. The sample for screening is urine or blood serum. After the sarcosine in urine or blood serum is oxidized and forming hydrogen peroxide, the content of sarcosine in the sample can be deduced by means of the reaction between hydrogen peroxide and nickel oxide. Accordingly, the possibility of prostate cancer can be evaluated.

Abstract: Disclosed are improved methods and structures for electrochemical sensors that may advantageously sense/detect chemical species including pollutants and/or energetics in a gaseous phase. Sensors according to the present disclosure may advantageously be fabricated using large scale microfabrication techniques and materials.

Abstract: An integrated ion-sensitive probe is provided. In an example, an ion-sensitive probe can include a semiconductor substrate and a first passive electrode attached to the semiconductor substrate. The first passive electrode can be configured to contact a solution and to provide a first electrical voltage as function of a concentration of an ion within the solution. In certain examples, a passive reference electrode can be co-located on the semiconductor substrate. In some examples, processing electronics can be integrated on the semiconductor substrate.

Abstract: Methods for nanopore-based protein analysis are provided. The methods address the characterization of a target protein analyte, which has a dimension greater than an internal diameter of the nanopore tunnel, and which is also physically associated with a polymer. The methods further comprise applying an electrical potential to the nanopore system to cause the polymer to interact with the nanopore tunnel. The ion current through the nanopore is measured to provide a current pattern reflective of the structure of the portion of the polymer interacting with the nanopore tunnel. This is used as a metric for characterizing the associated protein that does not pass through the nanopore.

Abstract: A method of analyzing a molecule in a nanopore is disclosed. A voltage is applied across a nanopore that is inserted in a membrane by coupling the nanopore to a voltage source. The nanopore is decoupled from the voltage source. After the decoupling, a rate of decay of the voltage across the nanopore is determined. A molecule in the nanopore is distinguished from other possible molecules based on the determined rate of decay of the voltage across the nanopore.

Abstract: A system for communicating information from an array of sensors is disclosed. The system comprises a sensor array that includes a plurality of sensors, wherein each sensor senses a physical property of a material that is in communication with the sensor. The system further comprises signal processing circuitry associated with each sensor that integrates the output of the sensor over time and compares the integrated output to a threshold. The system further comprises a communication network coupled to the signal processing circuitry that outputs information indicating that the integrated output corresponding to a given sensor has reached the threshold.

Abstract: The present invention relates to a cartridge for conducting diagnostic assays. The cartridge consists of an assembly of components that are easily assembled. The cartridge provides means for receiving a patient sample, precisely controlling fluid introduction, onboard storage of assay fluid and conducting different assay protocols and detection of a plurality of analytes. Methods of use for the cartridge are described. The disclosed invention is suitable for point of care environments or any place where rapid, ultrasensitive testing is required.

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: An inspection device includes a light source, an MO crystal disposed to face a semiconductor device (D), an object lens configured to concentrate the light output from the light source onto the MO crystal, a holder configured to hold the MO crystal, a flexible member interposed between the MO crystal and the holder, and an object lens drive unit configured to cause the MO crystal to contact the semiconductor device (D) by causing the holder to be moved in the optical axis direction of the object lens, wherein, when the MO crystal contacts the semiconductor device (D), the flexible member is bent, so that an incident plane is inclined in a range in which an inclination angle of the incident plane of the light in the MO crystal with respect to a plane orthogonal to the optical axis is less than or equal to an aperture angle.

Abstract: A system and method for measuring the concentration of magnetic ballast in a slurry to be analyzed is provided. A detection conduit is provided and configured to receive a slurry to be analyzed. The detection conduit may be surrounded by a set of detection coaxial coils. A reference set of two coaxial coils is also provided. A power source is provided for establishing an electrical current. A measurement subsystem for measuring the differential induced voltage between detection and reference coils is provided to determine the concentration of the magnetic ballast in the slurry.

Abstract: A method includes passing a magnetometer along a length of a material. The method also includes measuring, via the magnetometer, a first magnetic field magnitude along a first portion of the length of the material and measuring, via the magnetometer, a second magnetic field magnitude along a second portion of the length of material. The method further includes determining that the material comprises a defect along the second portion of the length of material by determining that the first magnetic field magnitude is different than the second magnetic field magnitude.

Abstract: A fabricated sample of a bearing ring including sub-surface non-metallic inclusions, including a first bore and a second bore extending but not penetrating a bearing raceway surface, a non-metallic material inserted into the second bore and a first and a second plug for the first and the second hole, respectively. A method of fabricating a bearing detection sample including a sub-surface non-metallic inclusion and using the fabricated sample to detect sub-surface non-metallic inclusions in production parts, including fabricating the detections sample, tuning a suitable detection probe using the sample, and using the tuned and optimized probe to detect sub-surface non-metallic inclusions in production bearing components.

Abstract: The present invention is directed toward system for the detection of a condition present in the hull of a marine asset disposed in a marine environment. The system comprises a plurality of transmitter disposed adjacent the marine asset for delivery of delivery of electrical current to the marine environment toward the marine asset. The system may include a sensor array for measuring fluid current and electro-magnetic fields. In a preferred embodiment, each end of the sensor array is affixed to a survey vessel that travels alongside the marine asset.