Abstract: A viewing system configured to combine multiple spectral images of a scene, the system includes a spectral beam separator configured to split an incoming beam of radiation into a first and a second beam of radiation, the first beam of radiation including radiations substantially in a first spectral band and the second beam of radiation including radiations substantially in a second spectral band; an image intensifier configured to intensify the second beam of radiation, the image intensifier including a photocathode configured to produce a flux of photoelectrons with substantially increased efficiency when exposed to the second beam of radiation, the photocathode constructed and arranged to substantially absorb all the radiations in the second beam of radiation; a current amplifier configured to amplify the flux of photoelectrons; and a display system configured to display an image of the scene in the second spectral band based on the amplified flux of electrons simultaneously with an image of the scene in th

Abstract: A device for associating a circuit breaker with a circuit may have one or more sensors for remotely sensing that a circuit is active. When a sensor senses that a circuit is active, a transmitter may transmit a signal to a receiver that alerts a user. In this manner, the user may determine which of a plurality of different circuit breakers is associated with a particular circuit. This device mitigates the contemporary need to repeatedly turn off circuit breakers, go to the room in which the circuit is being monitored, and check to see if the circuit is active.

Abstract: A vehicle rearview mirror system includes a transflective reflective element, an ambient light sensor that senses ambient light and a glare light sensor that senses glare light. A control circuit establishes a reflectance level of the reflective element, and the control circuit is responsive to light detection by at least one of the ambient light sensor and the glare light sensor. A display element is disposed behind the reflective element and operable to display information through the reflective element and viewable through the mirror reflector of the reflective element by a driver of the vehicle when the display element displays information, and substantially non-viewable by the driver of the vehicle when the display element does not display information. A display intensity control adjusts display intensity responsive to a light detection by at least one of the glare light sensor and the ambient light sensor.

Abstract: An image sensor with an image area having a plurality of pixels with each pixel having a photodetector and a substrate of a first conductivity type and a first layer of a second conductivity type formed between the substrate and the photodetectors. The first layer spans the image area and is biased at predetermined potential with respect to the substrate for driving excess carriers into the substrate to reduce cross talk. One or more adjacent active electronic components can be disposed in the first layer within each pixel and electronic circuitry can be disposed in the substrate outside of the image area.

Abstract: An integrated circuit having a photosensitive cell with an entry face, a photosensitive element and at least two elements forming a light guide and placed between the entry face and the photosensitive element. The second element is located between the first element and the entry face such that the two elements guide the light coming from the entry face onto the photosensitive element and each element forms a light guide. The inner volume has a first surface located on the same side as the photosensitive element, a second surface located on the same side as the entry face, and a lateral surface joining said first surface to said second surface and separating the inner volume from the outer volume. The first surface of the inner volume of the second element has a smaller area than that of the second surface of the inner volume of the first element.

Abstract: Methods, devices, and systems for an image sensor device are disclosed. An image sensor device comprises an array of image pixels wherein each pixel is configured for sensing light incident on the pixel. An image sensor device may further comprise a ground contact shared between at least two image pixels of the plurality. The ground contacts may be provided in an even pattern, a random pattern, or a repeating random pattern across the array. The image sensor device may further include an array of shared pixel structures comprising a plurality of pixels, wherein a ground contact may be evenly or randomly placed within each pixel structure across the array of pixel structures.

Abstract: A camera system includes at least two camera units, wherein each camera unit comprises at least one detection element for detecting an optical signal. At least one of the at least two camera units includes at least one element operative to enable detection of light in at least two different spectral ranges.

Abstract: A mobile phone with night vision function includes a body (1) and a night vision module (4). The body (1) includes a display (2), a keypad (3), and a storage module (5). The night vision module is disposed at a top end of the body, and includes a lens module (41), an IR (infrared) emitter (42) and an IR detector. The storage module is provided in a sidewall of the body. The night vision module can detect IR radiation and provide information of an IR image. The information of the IR image can be displayed on the display of the body or be saved in the storage module. The mobile phone with night vision function can be used for night vision, illuminating, and photographing at night.

Abstract: A heat dissipation method for a projector includes measuring a first temperature at an intake vent of a projector, measuring a second temperature at an outlet vent of the projector, controlling a heat sink of the projector based on the first temperature when the second temperature is smaller than a predetermined value, and controlling the heat sink of the projector based on the second temperature when the second temperature is larger than the predetermined value.

Abstract: An illuminance detecting component includes: a supporting substrate including a substrate body made of silicon, and pads provided on an upper surface of the substrate body; a plurality of light receiving elements connected electrically to the pads and receiving light irradiated from an outside, the plurality of light receiving elements being arranged in array fashion on the upper surface side; external connection terminals connected electrically to the light receiving elements; and a translucent member provided on the substrate body. In the illuminance detecting component, an airtight space in which the plurality of light receiving elements are accommodated is formed between the translucent member and the substrate body.

Abstract: Light resonant with an electronic excitation level of nanosize objects is projected onto a plurality of closely located nanosize objects, such as quantum dots, quantum dot pairs, and a carbon nanotube, in a collection of nanosize objects is disclosed. In so doing, to control the mechanical interaction induced between the nanosize objects, the projected resonant light is changed in polarization. This enables the collective manipulation of the nanosize objects.

Abstract: Provided is a phantom device having an internal organ simulating phantom. The phantom device comprises: a phantom receiving radiation emitted from a radiation emitting unit and comprising therein a simulant that simulates an internal organ; a lifting unit installed under the phantom to support the phantom and moving the phantom relative to the radiation emitting unit, the lifting unit comprising: a worm shaft axially rotated by an external torque and having a worm formed on an outer circumferential surface thereof, a cylindrical worm wheel having gear grooves formed on an outer circumferential surface thereof to engage with the worm and a female screw formed on an inner circumferential surface thereof, and rotated by the axial rotation of the worm shaft; and a driven screw engaging with the female screw of the worm wheel, and moved up and down by the rotation of the worm wheel to move up and down the phantom; and a horizontal moving unit interlocking with the lifting unit and horizontally moving the phantom.

Abstract: A method for monitoring a composition of hydrocarbon material extracted from an earth formation is disclosed. The method includes: extracting the hydrocarbon material from the earth formation; diverting a portion of the hydrocarbon material into a container, the container including a pulse neutron spectroscopy tool disposed therein; emitting a plurality of pulses of high-energy neutrons from the pulse neutron spectroscopy tool into the portion of the hydrocarbon material and inducing at least one gamma ray spectrum from the portion; detecting the at least one gamma ray spectrum at the pulse neutron spectroscopy tool; and calculating a composition of the hydrocarbon material based on the at least one gamma ray spectrum. A system for monitoring a composition of hydrocarbon material extracted from an earth formation is also disclosed.

Abstract: A method of analyzing biological material by exposing the biological material to a recognition element, that is coupled to a mass tag element, directing an ion beam of a mass spectrometer to the biological material, interrogating at least one region of interest area from the biological material and producing data, and distributing the data in plots.

Abstract: This invention relates to a mass spectrometer including a reaction cell and to a method of using such a mass spectrometer. In particular, although not exclusively, this invention relates to a tandem mass spectrometer and to tandem mass spectrometry. The invention provides a method of mass spectrometry using a mass spectrometer having a longitudinal axis, comprising guiding ions to travel along the longitudinal axis of the mass spectrometer in a forwards direction to pass through an intermediate ion store and then to enter a reaction cell, to process the ions within the reaction cell, to eject the processed ions to travel back along the longitudinal axis to enter the intermediate ion store once more, and to eject one or more pulses of the processed ions in an off-axis direction to a mass analyser.

Abstract: A mass spectroscopy device constituted by a first reflector which is partially transparent and partially reflective, a transparent body, and a second reflector which is reflective. The first reflector and the second reflector are arranged on opposite sides of the transparent body so as to form an optical resonator in such a manner that when a specimen containing an analyte subject to mass spectroscopy is arranged in contact with a surface of the first reflector, and the surface is irradiated with measurement light, optical resonance occurs in the optical resonator, and intensifies an electric field on the surface, and the intensified electric field desorbs the analyte from the surface.

Abstract: A method of obtaining a mass spectrum of elements in a sample is disclosed. Sample precursor ions having a mass to charge ratio M/Z are generated, and fragmented at a dissociation site, so as to produce fragment ions of mass to charge ratio m/z. The fragment ions are guided into an ion trap of the electrostatic or “Orbitrap” type, the fragment ions entering the trap in groups dependent upon the precursor ions M/Z. The mass to charge ratio of each group is determined from the axial movement of ions in the trap. The electric field in the trap is distorted. Ions of the same m/z, that are derived from different pre-cursor ions, are then separated, because the electric field distortion causes the axial movement to become dependent upon factors other than m/z alone.

Abstract: Viscous oil residues are located based on fluorescence polarization. Methods and apparatus in accordance with the invention may be integrated with autonomous and remotely operated undersea vehicles to map the location of oil spills.

Abstract: An ion detector includes collision surfaces for converting both positively and negatively charged ions into emitted secondary electrons. Secondary electrons may be detected using an electron detector, than may, for example include an electron multiplier. Conveniently, secondary electrons (or electrons emitted by the multiplier) may be detected using an electron pulse counter.

Abstract: The present invention involves an ion beam angular measurement apparatus for providing feedback for a predetermined set ion beam angle comprising an arrangement of composite pillars formed on an insulating material and wherein the composite pillars selectively allow ion beams to penetrate a first layer of a pillar, wherein resistivity measurements are taken for each of the composite pillars before and after test ion beam implantation and wherein the resistivity measurements yield information relating to an angle of the ion beam during test.

Abstract: A semiconductor wafer inspection tool and a semiconductor wafer inspection method capable of conducting an inspection under appropriate conditions in any one of an NVC (Negative Voltage Contrast) mode and a PVC (Positive Voltage Contrast) mode is provided. Primary electrons 2 are irradiated onto a wafer to be inspected 6 and the irradiation position thereof is scanned in an XY direction. Secondary electrons (or reflected electrons) 10 from the wafer to be inspected 6 are controlled by a charge control electrode 5 and detected by a sensor 11. An image processor converts a detection signal from the sensor 11 to a detected image, compares the detected image with a predetermined reference image, judges defects, an overall control section 14 selects inspection conditions from recipe information for each wafer to be inspected 6 and sets a voltage to be applied to the charge control electrode 5.

Abstract: A method and apparatus for remotely monitoring properties of gases and plasmas, and surface and sub-surface properties of materials, is disclosed. A laser beam is focused at a desired region within a gas, plasma, or material (e.g., solid or liquid) to be analyzed, generating an ionized sample region or a localized, enhanced free carrier region. A beam of microwave radiation is directed toward the ionized sample region or the free carrier region, and the microwave radiation is scattered. The scattered microwave radiation is received by a microwave receiver, and is processed by a microwave detection system to determine properties of the gas, plasma, or material, including surface and sub-surface properties.

Abstract: Apparatus and method for detecting an explosive material, involving irradiating an object with a continuous wave (CW) or pulsed beam of Terahertz radiation, preferably in the frequency range of 100 GHz to 100 THz and detecting radiation transmitted and/or reflected from the object. A spectrum is constructed from the detected radiation, which is indicative of a fundamental property of the explosive material. This constructed spectrum is compared with one or more known spectra of explosive materials to determine whether a likeness exists.

Abstract: There is provided an infrared array sensor, which is capable of positional specification and flow tracking of an object to be detected without performing image processing, and whose cost is low. An infrared array sensor 100 where pixels 101, each having a thermal infrared detector 102 whose electric properties change in accordance with incidence of infrared rays, are arrayed in two-dimensional matrix form, the infrared array sensor 100 including: a row output take-out means 103 configured so as to take out an electric signal to the outside as an output, the electric signal being in accordance with electric properties as a sum of electric properties respectively shown by the thermal infrared detectors 102 on each row; and a column output take-out means 104 configured so as to take out an electric signal to the outside as an output, the electric signal being in accordance with electric properties as a sum of electric properties respectively shown by the thermal infrared detectors 102 on each column.

Abstract: A detector bar, a detector formed from a number of detector bars, and a computed-tomography unit including such a detector is disclosed, each detector bar being formed from a number of individual modules. A detector bar has a module carrier for mechanically retaining the individual modules, and a printed circuit board, structurally separate from the module carrier, for making electric contact with the individual modules. The individual modules can thus be exchanged without disturbance, and simple aligning of the individual modules can thus be carried out while electric contact is simultaneously made.

Abstract: Edge portions of detection electrodes, such as a first linear electrode and a second linear electrode, that include the side surfaces of the detection electrodes and parts of surfaces of the detection electrodes, the surfaces continuing from the side surfaces and facing a photoconductive layer for recording, are covered with dielectrics. Further, surfaces of the detection electrodes and the dielectrics are coated with an anti-crystallization layer to prevent crystallization of a photoconductive layer for readout. At this time, the surfaces of the electrodes are smoothly covered with the dielectrics at angles ? of contact of 5 to 60 degrees so that no bump is present, thereby preventing generation of a crack in the anti-crystallization layer on the dielectrics and the electrodes. Accordingly, crystallization of the photoconductive layer for readout, which is induced by injection of charges from the edge portions of the detection electrodes or the like, is prevented.

Abstract: In a radiation image detector including a voltage-applied electrode, to which a voltage is applied, and a semiconductor layer for generating charges by irradiation with radiation, which are superposed one on the other, a charge injection prevention layer that covers at least the edge of the voltage-applied electrode is provided. Further, a protruding electrode is provided on the upper surface of the charge injection prevention layer in such a manner that the side surface of an edge of the protruding electrode is located on the outer side of the side surface of the edge of the voltage-applied electrode and the side surface of the other edge of the protruding electrode is located at the position of the side surface of the edge of the voltage-applied electrode or on the inner side thereof.

Abstract: An X-ray detector includes: a semiconductor substrate to generate charged particles by an irradiation of an X-ray; a plurality of pixel electrodes arranged in matrix on an X-ray incident surface of the semiconductor substrate and applied with a first electric potential to detect the charged particles; and a platy electrode provided on a surface opposite to the X-ray incident surface of the semiconductor substrate and applied with a second electric potential different from the first electric potential.

Abstract: A scintillation element comprises a scintillation material, and a reflective layer, wherein the reflective layer is formed as an intrinsic part of the scintillation material. Preferably, a plurality of scintillation elements may be arranged to form a scintillation array. A method for producing a scintillation element comprises providing a scintillation material, and producing a reflective layer at the scintillation material by exposing the scintillation material to physical and/or chemical conditions in such a way that the reflective layer is formed out of a part of the scintillation material.

Abstract: Wiring substrates 11 and 12 are positioned on a fixed base 10 in a manner such that there is a step between the wiring substrates, and radiation imaging elements 2 and 3, respectively having scintillators 25 and 35 deposited on photosensitive portions 21 and 31, are respectively mounted on the wiring substrates 11 and 12. The radiation imaging element 2 is positioned so that its setting surface protrudes beyond a radiation incident surface of the radiation imaging element 3, and the photosensitive portion 21 of the radiation imaging element 2 and the photosensitive portion 31 of the radiation imaging element 3 are juxtaposed to a degree to which the portions do not overlap. The photosensitive portion 21 of the radiation imaging element 2 extends close to an edge at the radiation imaging element 3 side and the scintillator 25 of substantially uniform thickness is formed up to this position.

Abstract: A method is provided for fabricating contacts on semiconductor substrates by direct lithography that results in durable adhesion of the electrodes, increased interpixel resistance and the electrodes which act as a blocking contact, thereby providing for improved energy resolution in a resultant radiation detector.

Abstract: According to an aspect of an embodiment, an apparatus having an input device for inputting information and a display for displaying information comprises, a storage for storing information corresponding to an ultra violet ray intensity in association with location information and time information and a processor for obtaining information of an ultra violet ray intensity on the basis of location information and time information inputted by the input device in reference to the information stored in the storage, and for displaying the obtained information of the ultra violet ray intensity on the display.

Abstract: An accelerator-based neutron tool is provided. The tool includes a deuterium-tritium gas mixture such that the tool outputs a desired ratio of 2.45 MeV and 14 MeV neutrons.

Abstract: The invention relates to a method of measurement, comprising treatment of a signal consisting of a succession of temporally spaced main pulses, having a duration D and energy E, which can each consist of a stack of elementary pulses having a duration Di and whose energy is evaluated by a variable Ei having an additivity property, wherein said elementary pulses have instants of appearance Ti following a homogeneous Poisson process of an intensity ?, characterized in that said method comprises the following steps: digitization of the signal; measurement of the duration D and energy E for each main pulse in order to create duration-energy pairs (D,E); determination of the energy pairs (Di,Ei) of the elementary pulses from the constructed pairs (D, E); deduction of energy Ei of each elementary pulse from the determined pairs (Di,Ei). The invention also relates to a signal analysis device comprising means which can implement the method according to the invention.

Abstract: A beam blanking unit (1) comprises first and second blanking plates (2, 3) mounted to a support plate (15). A stopper (4) is mechanically and electrically connected to the first blanking plate (2).

Abstract: The present invention discloses a high throughput screening method and system, which can be used to screen a plurality of fluid samples to ascertain their corresponding information. For example, a polymer solution sample is screened to ascertain information about its micro structure character such as including its crystallinity property. The high throughput screen system comprises a plurality of sampling passages and one or more screening devices for screening multiple samples simultaneously or almost simultaneously to get their corresponding information so as to meet research requirement of the relevant field.

Abstract: The present invention is directed to a generator apparatus for separating a daughter gallium-68 radioisotope substantially free of impurities from a parent gernanium-68 radioisotope, including a first resin-containing column containing parent gernanium-68 radioisotope and daughter gallium-68 radioisotope, a source of first eluent connected to said first resin-containing column for separating daughter gallium-68 radioisotope from the first resin-containing column, said first eluent including citrate whereby the separated gallium is in the form of gallium citrate, a mixing space connected to said first resin-containing column for admixing a source of hydrochloric acid with said separated gallium citrate whereby gallium citrate is converted to gallium tetrachloride, a second resin-containing column for retention of gallium-68 tetrachloride, and, a source of second eluent connected to said second resin-containing column for eluting the daughter gallium-68 radioisotope from said second resin-containing column.

Abstract: Among other things, an accelerator is mounted on a gantry to enable the accelerator to move through a range of positions around a patient on a patient support. The accelerator is configured to produce a proton or ion beam having an energy level sufficient to reach any arbitrary target in the patient from positions within the range. The proton or ion beam passes essentially directly from the accelerator to the patient. In some examples, the synchrocyclotron has a superconducting electromagnetic structure that generates a field strength of at least 6 Tesla, produces a beam of particles having an energy level of at least 150 MeV, has a volume no larger than 4.5 cubic meters, and has a weight less than 30 Tons.

Abstract: An apparatus and method for partial ion implantation, which desirably provide control over the energy of the implanted dopants, generally includes an ion beam generator, and first and second deceleration units. The first deceleration unit decelerates the energy of an ion beam generated by the ion beam generator; and a subsequent, second deceleration unit further decelerates the energy into different energy levels according to regions of a wafer into which the ions are to be implanted.

Abstract: In a lithographic system, data transmission is carried out by a powerful electro-optical free-beam connection system enabling optical pattern data to be guided from light exit places to light entrance places inside the vacuum chamber by free-space optical beams in order to produce control signals. The burden on the pattern production system is significantly reduced by the disappearance of mechanical and electrical contacts. The paths of the free-space optical beams and the particle beams can intersect each other in a non-influential manner. Active photodiodes acting as light exit places can be spatially disposed directly in the pattern production system. Passive light waveguides which can be bundled together to form multipolar fibre array plugs, or active transmission lasers, either of which can also act as light exit places, can be arranged outside the vacuum chamber.

Abstract: An infrared source and a gas sensor, a first layer and a second layer effecting bandpass filter characteristics for an operating frequency range.

Abstract: A radiation attenuation corridor couples a radiation therapy room and a control room. The radiation attenuation corridor is made of a material that substantially absorbs ionizing radiation and substantially blocks the transmission of the ionizing radiation. Specific wall portions at the entrance of the corridor are covered with borated polyethylene (BPE). Specific wall portions diverge from an axis defined by the corridor by from about 10 degrees to about 45 degrees. The corridor thus leads out of the room and angles laterally across the wall of the therapy room, before angling again and opening to a safe room. The added angles in the radiation corridor increase the distance of radiation travel, and make the path more indirect, thereby increasing the contact of the radiation emissions with the radiation shielding and further attenuating the radiation.

Abstract: Apparatuses and methods to sense proximity and to detect light. In one embodiment, an apparatus includes an emitter of electromagnetic radiation and a detector of electromagnetic radiation; the detector is configured to detect electromagnetic radiation from the emitter when the apparatus is configured to sense proximity, and the emitter is disabled at least temporarily to allow the detector to detect electromagnetic radiation from a source other than the emitter, such as ambient light. In one implementation of this embodiment, the ambient light is measured by measuring infrared wavelengths. Other apparatuses and methods and data processing systems and machine readable media are also described.

Abstract: An optical heterodyne sampling device includes: two pulsed laser sources which may have a jitter and which can receive respectively a pump beam and a probe beam having respective repetition frequencies Fs and Fp, whereby Fs?Fp; and an element for combining the pump beam and the probe beam which are intended to be passed over a sample, consisting of a signal channel including a system for the photodetection of the response signal from the sample and a system for acquiring the photodetected signal, which is connected to the signal channel. According to the invention, Fs and Fp are essentially constant and the acquisition system includes an acquisition trigger element. A synchronization channel is connected to the trigger element, and includes a device for measuring the beat frequency |Fs?Fp| which can generate a synchronization signal comprising pulses each time the pulses of the pump beam and the probe beam coincide.

Abstract: A nonvolatile memory cell having a contact area between a phase-change material such as a chalcogenide and a heat source which is smaller than photolithographic limits is described. To form this cell, a conductive or semiconductor pillar is exposed at a dielectric surface and recessed by selective etch. A thin, conformal layer of a spacer material is deposited on the dielectric top surface, the pillar top surface, and the sidewalls of the recess, then removed from horizontal surfaces by anistropic etch, leaving a spacer on the sidewalls defining a reduced volume within the recess. The phase change material is deposited within the spacer, having a reduced contact area to the underlying conductive or semiconductor pillar.

Abstract: The present invention discloses a vertical phase-change-memory (PCM) cell, comprising a stack of a bottom electrode (5) contacting a first layer of phase change material (14), a dielectric layer (12) having an opening (13), a second layer of phase change material (6) in contact with the first layer of phase change material through the opening in the dielectric layer and a top electrode (7) contacting this second layer of phase change material.

Abstract: A phase change memory (PCM) device includes a substrate, bottom electrodes disposed in the substrate, a first dielectric layer disposed on the substrate, second dielectric layers, third dielectric layers, cup-shaped thermal electrodes, top electrodes, and PC material spacers. In the PCM device, each cup-shaped thermal electrode contacts with each bottom electrode. Second and third dielectric layers are disposed over the substrate in different directions, wherein each of the second and third dielectric layers covers a portion of the area surrounded by each cup-shaped thermal electrode, and the third dielectric layers overlay the second dielectric layers. The top electrodes are disposed on the third dielectric layers, wherein a plurality of stacked structure composed of the third dielectric layers and the top electrodes are formed thereon.

Abstract: The invention provides a novel structure of a phase change memory device. In the phase change memory device of the invention, an electrode acting as a radiating fin does not exit immediately above a phase change area of a phase change layer (115). A heater electrode (111) and landing electrode layer (113a, 114a) both contact the bottom of the phase change layer (115) made of GST. The landing electrode layer (113a, 114a) contacts the bottom of the phase change layer (115) to partially overlap in a region off from a portion immediately above the contact face (Y) of the phase change layer and heater electrode. The contact electrode (116, 118) is directly connected to the landing electrode layer (113a, 114a) in a portion off from a portion immediately above the heater electrode (111). The phase change layer of GST or the like does not exist immediately below the contact electrode.

Abstract: A microelectronic programmable structure suitable for storing information, a device including the structure and methods of forming and programming the structure are disclosed. The programmable structure generally includes an oxide ion conductor and a plurality of electrodes. Electrical properties of the structure may be altered by applying energy to the structure, and thus information may be stored using the structure.

Abstract: A nitride-based semiconductor substrate has a substrate formed of a nitride-based semiconductor crystal having a mixed crystal composition with three elements or more. The substrate has a diameter of not less than 25 mm, and a thermal resistivity in a range of 0.02 Kcm2/W to 0.5 Kcm2/W in its thickness direction.