Abstract: A method for porosity determination in porous media such as earth and rock core samples by x-ray computed tomography in which a sample of the porous medium is scanned after saturation with a first reference fluid and then after saturation with a second reference fluid to determine the linear attenuation coefficients of the sample saturated with the respective fluids. The method includes determining the linear attenuation coefficients of the respective fluids and comparing the difference in the attenuation coefficient of the respective fluids and the attenuation coefficient of the samples as saturated with the fluids to determine the porosity of the porous medium. The respective fluids may be a gas and a liquid wherein the x-ray absorption of the two fluids is significantly different. The fluids may be different liquids or a single gas at different pressure conditions to obtain the different absorption characteristics.

Abstract: The disclosure relates to a crime-preventing infrared sensor of a passive type in which the infrared detecting element 6 detects the energy of infrared rays radiated from an object in a predetermined visual field to be monitored and an alarm is given in response to a detection signal outputted from the infrared detecting element. The crime-preventing infrared sensor comprises an infrared detector 7 for detecting a human body or any other object approaching the sensor itself independently of an object-detecting function in a visual field, whereby the obstruction in the visual field of the object-detecting function is prevented.

Abstract: The invention concerns an input screen scintillator for an X-ray image intensifier tube. This tube comprises light-conductive cesium iodide needles formed on an electrically conductive substrate. According to the invention, each needle is entirely coated with a material such as a metal or a semiconductor which reflects the light travelling within the needles and allows an identical potential level in the coating material as in the substrate towards the inside of said needles. The coating can enhance the efficiency and resolution of image intensifier tubes. The invention has applications in the field of X-ray imagery.

Abstract: A non-pressure-dependancy infrared absorption spectra recording, sample holder comprises a sample holder having an infrared light beam transmitting passage, two windows of infrared light transmitting material in the passage in face-to-face contact, with at least one window having an inner surface portion contoured to provide between the windows a sample space shaped to provide adjacent light beam paths which are different in length and a clamp for resiliently clamping the windows in the sample holder. A deformable sample is lightly compressed to fill the sample space, and an infrared light beam is passed through the sample. The adjacent light beam paths being of different lengths avoids optical interference fringes so that absorption spectra of the sample can be recorded.

Abstract: A system for public display of ultraviolet radiation levels wherein said radiation is collected and measured by one or several optical collectors or sensor assemblies at remote sensing stations. Optical fibers receive and then convey the radiation of the sun through a filter and onto a photovoltaic sensor, measuring the intensity of the ultraviolet radiation. An electrical signal proportional to the ultraviolet radiation is produced with the signal being amplified and either used directly as analog data or converted to a digital signal for the modulation of a radio transceiver. The signal is transmitted to a transceiver of a central data processing station, where it is processed. The processed signal is retransmitted to a receiver in which the processed signal carrier is demodulated and the signal fed to a display station providing the level of exposure to the public.

Abstract: An infrared absorption spectra recording, high pressure sample holder comprises a gasket for high compression between two diamond anvils, and an infrared light beam transmitting material partially filling a light passage through the gasket at a position between the two anvils to leave an infrared light beam transmitting, sample cavity adjacent one anvil. The surface of the filling is shaped, e.g. dished so that an infrared light beam passing through the sample will have light paths of different lengths, thereby avoiding optical interference fringes.

Abstract: Materials for infrared transparent, electrically conductive applications such as gate for infrared detectors made of titanium oxynitride (TiN.sub.x O.sub.y), bismuth, and antimony. Titanium oxynitride with resistivity of at least 0.001 .OMEGA.-cm provides sufficient transmittance for infrared detector gate application as illustrated in FIG. 4.

Abstract: A method and apparatus is provided to effect the contactless testing of the surface and inner structure of a solid workpiece, wherein a single pulse of an electromagnetic exciting beam, preferably of a focused beam, is projected against the workpiece and the effect of the locally and temporarily induced workpiece temperature, measured as generated infra-red radiation, is processed, providing information concerning the surface and inner structure of the workpiece. The single pulsee of the laser beam is broken up into a multiplicity of component beams whose images, simultaneously projected upon the workpiece, are combined in a field or line by means of which the workpiece is analyzed.

Abstract: Disclosed is a radiation image storage panel, which comprises a support, a flame-sprayed layer and a stimulable phosphor layer formed by a vapor phase build-in method in succession and method for preparing the same. According to this invention, radiation images which are high in radiation sensitivity and sharpness can be obtained.

Abstract: Empty component locations are detected on an assembled circuit board where the component locations are marked with spots of a fluorescent substance before assembly. The circuit board is exposed to stimulating radiation by a radiation source causing luminescence from the spots of fluorescent substance on which the stimulating radiation is impinged. The circuit board is then examined for the luminescence to determine whether the components are between the spots and the radiation source.

Abstract: A radiation detector, serving as an infrared movement monitor, which is reactive to thermal radiation includes a housing having a window admitting the radiation and optics. The window having a size being coordinated with the angle of coverage of the optics disposed behind it. The optics focussing the radiation onto an optical sensor, preferably through a Fresnel lens. The window having a frame for accepting and guiding at least one masking element formed of a strip-shaped plastic film diminishing the infrared radiation and being slideably displaced in a guide channel along the window for covering the optics in a variable sub-region thereof.

Abstract: Methods and apparatus for determining a property of bulk coal from a fluorescence spectrum of the coal are disclosed. In the methods the coal is illuminated so that a plurality of macerals at the surface of the coal are illuminated with UV light. Intensities of fluorescent light from the coal are determined as a function of wavelength and output signals related to the intensities are derived as a function of wavelength.

Abstract: A high resolution gamma-gamma apparatus is provided with a chemical source and a photon detector in such close proximity such that the detector provides a positive response to an increase in formation density. Typically, such a response is obtained when the detector opening is within one source photon mean free path of the source opening. For a Cs 137 source, the furthest spacing would be about two inches, although spacings of less than one inch are preferable. In order to decrease background noise, shielding is placed between the source and detector. A first embodiment of the tool has an uncollimated source, and a substantially uncollimated detector with the source and detector being coaxial and with the detector behind the source and separated by shielding. A second embodiment has a collimated source with an uncollimated detector, while a third embodiment has an uncollimated source with a collimated detector. The provided apparatus are useful for high resolution density and Pe measurements.

Abstract: An infrared sensing device is capable of sensing the amount of infrared radiation which is present at a given location and presenting a visual indicia of the strength of the signal. A series of led's which light up in a bar graph fashion indicate the strength of the signal. The device also has a remote sensor which allows the sensing to be done at a location away from the position of the visual signal strength indicator.

Abstract: An apparatus for recording, reading, and reproducing radiation image information, the apparatus includes a recording unit for recording radiation image information from an object on an endless recording medium, a readng unit for photoelectrically reading the recorded radiation image information from the recording medium by applying stimulating light to the recording medium, and a reproducing unit for applying a light beam modulated by the radiation image thus read on a recording sheet such as a photographic photosensitive material to reproduce the image as a visible image on the recording sheet. The recording medium and the recording sheet are fed by a common feed system in auxiliary scanning directions, respectively. The reading and reproducing units may share a common optical system.