Patent application number | Description | Published |
20080286635 | LAMINATED PACKAGING MATERIAL, AND BATTERY USING THE MATERIAL - A laminated packaging material and a battery using the material are disclosed. The material includes an inner layer composed of a resin film, a first adhesive layer, a metal layer, a second adhesive layer, and an outer layer composed of a resin film. At least one of the first adhesive layer or the second adhesive layer is composed of an adhesive composition, as an essential component, selected from the group consisting of a resin having an active hydrogen group in a side chain, polyfunctional isocyanates, and a polyfunctional amine compound. | 11-20-2008 |
20090098417 | BATTERY PACK AND METHOD OF MANUFACTURING THE SAME - A battery pack including a battery cell, a circuit board electrically connected to the battery cell, a first cover, and a second cover. The battery cell includes a battery element, a rectangular first packaging component, a recess, and a rectangular second packaging component. The battery element is housed in the recess, the first packaging component and the second packaging component are stacked so that the second packaging component covers the opening of the recess, the periphery of the opening is sealed, both ends of the second packaging component are abutted at the outer bottom surface of the recess of the first packaging component, and the first outer resin layer and the second inner resin layer are bonded by heat seal adhesive layer. | 04-16-2009 |
20100216016 | BATTERY AND BATTERY PACK - A battery is provided that includes a laminate film having a metal layer and a thermal adhesive resin layer, a battery element which is covered with the laminate film, and leads which are connected to the battery element. The leads are sandwiched between opposing thermal adhesive resin layers, and extend outside the laminate film. The thermal adhesive resin layer has thermal adhesive resin and fine resin fibers. | 08-26-2010 |
20110003203 | ELETRODE AND BATTERY HAVING THE SAME - An electrode includes: a collector; and an active material layer provided on the collector, containing a copolymer obtained by copolymerizing, as a comonomer, at least one member selected from monomers represented by the following general formulae (1) to (4) with vinylidene fluoride or vinylidene fluoride and a copolymerizable monomer thereof | 01-06-2011 |
20110104546 | NONAQUEOUS ELECTROLYTE BATTERY - A nonaqueous electrolyte battery is provided which includes a battery element, and a package member for packaging the battery element, and in the nonaqueous electrolyte battery, the package member includes a layer which contains a blackbody material capable of using blackbody radiation and which has an emissivity of 0.6 or more. | 05-05-2011 |
20130101894 | BATTERY, METHOD OF FORMING A BATTERY CELL CONTAINER, AND ELECTRONIC DEVICE - The present invention provides a battery, a method of forming a battery cell container, and an electronic device. The battery of the present invention comprises: a battery cell, and a battery cell container composed of two folded container portions formed by stretching in one thin sheet, wherein, in each container portion, among the planes where the walls of each container exist, at least two planes are inclined to the plane where the thin sheet section for forming the container portion exists. Through the implementation of the present invention, a larger volume of battery container can be obtained with the same or less material as well as easy positioning. | 04-25-2013 |
20150111084 | NONAQUEOUS ELECTROLYTE BATTERY - A nonaqueous electrolyte battery is provided which includes a battery element, and a package member for packaging the battery element, and in the nonaqueous electrolyte battery, the package member includes a layer which contains a blackbody material capable of using blackbody radiation and which has an emissivity of 0.6 or more. | 04-23-2015 |
Patent application number | Description | Published |
20080238148 | BODY FRAMEWORK CONSTRUCTION - A body framework construction, includes: a rear seat cross member, extending in a transverse direction of a vehicle, in a rear part of a body in a lower part of a passenger compartment; a dash cross member upper, extending in the transverse direction, in a front part of the passenger compartment; and a backbone, configured into a thin, long shape having a closed cross section, and extending in a longitudinal direction of the vehicle. A front end portion of the backbone is connected to the dash cross member upper via a gusset, and a rear end portion of the backbone is joined to the rear seat cross member. The gusset is deformed more easily than the backbone relative to a force from a front. | 10-02-2008 |
20080238151 | PILLAR CONSTRUCTION FOR VEHICLE - An upper member of a pillar has a substantially U-shaped cross section, and includes first side walls extending substantially in a transverse direction of the vehicle at least at a lower portion. The upper member includes a connecting plate at a lower end while keeping the U-shaped cross section. A lower member includes a mounting plate opposed to the connecting plate at a lower portion being lower than an upper end, and the lower member includes second side walls extending substantially in the transverse direction at both end portions of the mounting plate in a longitudinal direction of the vehicle. The connecting plate and the mounting plate are welded to each other in a state that the connecting plate and the mounting plate are in abutment with each other, and the first side walls and the second side walls or the first and second side walls and wall members attached to the first and second side walls, are joined to each other, and the upper member and the lower member are integrally fixed to each other. | 10-02-2008 |
Patent application number | Description | Published |
20100099790 | POLYHEDRAL POLYSILOXANE MODIFIED PRODUCT AND COMPOSITION USING THE MODIFIED PRODUCT - The present invention has its object to provide a liquid-form modified product of polyhedral polysiloxane which is excellent in moldability and transparency, and a composition produced using the modified product. In addition, the present invention can provide an easy-to-handle modified product and composition. The present invention provides a modified product of polyhedral polysiloxane which is obtainable by modifying a polyhedral polysiloxane compound (a) with a compound (b), and a composition containing the modified product. The polyhedral polysiloxane compound (a) has an alkenyl group and/or a hydrosilyl group, and the compound (b) has a hydrosilyl group and/or an alkenyl group each capable of hydrosilylation with the component (a). | 04-22-2010 |
20110001190 | ALKALI-DEVELOPABLE CURABLE COMPOSITION, INSULATING THIN FILM USING THE SAME, AND THIN FILM TRANSISTOR - An object of the present invention is to provide a polysiloxane compound that can be developed in an aqueous alkali solution and can yield a cured product or thin film having superior heat-resistant transparency and insulating properties, a curable composition thereof, and a thin film transistor provided with a passivation layer or gate insulator using the same, and the present invention relates to a polysiloxane compound having at least one photopolymerizable functional group in a molecule thereof, and having at least one member selected from the group consisting of an isocyanuric acid backbone structure, a phenolic hydroxyl group and a carboxyl group within the same molecule, to a curable composition containing the polysiloxane compound, and to a cured product thereof. | 01-06-2011 |
20130165611 | POLYHEDRAL POLYSILOXANE MODIFIED PRODUCT AND COMPOSITION USING THE MODIFIED PRODUCT - The present invention has its object to provide a liquid-form modified product of polyhedral polysiloxane which is excellent in moldability and transparency, and a composition produced using the modified product. In addition, the present invention can provide an easy-to-handle modified product and composition. The present invention provides a modified product of polyhedral polysiloxane which is obtainable by modifying a polyhedral polysiloxane compound (a) with a compound (b), and a composition containing the modified product. The polyhedral polysiloxane compound (a) has an alkenyl group and/or a hydrosilyl group, and the compound (b) has a hydrosilyl group and/or an alkenyl group each capable of hydrosilylation with the component (a). | 06-27-2013 |
20150218318 | POLYHEDRAL POLYSILOXANE MODIFIED PRODUCT AND COMPOSITION USING THE MODIFIED PRODUCT - The present invention has its object to provide a liquid-form modified product of polyhedral polysiloxane which is excellent in moldability and transparency, and a composition produced using the modified product. In addition, the present invention can provide an easy-to-handle modified product and composition. The present invention provides a modified product of polyhedral polysiloxane which is obtainable by modifying a polyhedral polysiloxane compound (a) with a compound (b), and a composition containing the modified product. The polyhedral polysiloxane compound (a) has an alkenyl group and/or a hydrosilyl group, and the compound (b) has a hydrosilyl group and/or an alkenyl group each capable of hydrosilylation with the component (a). | 08-06-2015 |
20150218319 | POLYHEDRAL POLYSILOXANE MODIFIED PRODUCT AND COMPOSITION USING THE MODIFIED PRODUCT - The present invention has its object to provide a liquid-form modified product of polyhedral polysiloxane which is excellent in moldability and transparency, and a composition produced using the modified product. In addition, the present invention can provide an easy-to-handle modified product and composition. The present invention provides a modified product of polyhedral polysiloxane which is obtainable by modifying a polyhedral polysiloxane compound (a) with a compound (b), and a composition containing the modified product. The polyhedral polysiloxane compound (a) has an alkenyl group and/or a hydrosilyl group, and the compound (b) has a hydrosilyl group and/or an alkenyl group each capable of hydrosilylation with the component (a). | 08-06-2015 |
Patent application number | Description | Published |
20090266697 | Handheld device - A pair of side keys disposed on a lateral plate casing of a stationary-side rear case in a cellular phone is coupled with a film sheet that is fabricated in a substantially identical length to the length of the pair of side keys. The pair of side keys is coupled with the film sheet by applying double-faced adhesive tapes having adhesive faces on both sides only to both ends of the film sheet. | 10-29-2009 |
20090267845 | Mobile terminal device - An antenna shaft of an antenna is first inserted through a shaft through-hole created on a lateral plate casing of a stationary-side front case. Then, a flange on the antenna shaft is screw-fixed in a screw hole created at a predetermined position on the lateral plate casing of the stationary-side front case. When the antenna shaft of the antenna is inserted through the shaft through-hole created on the lateral plate casing, an inserted tip of the antenna shaft abuts against a substantially V-shaped connection receiving unit, which is fixed on a circuit board in the stationary-side front case. As a result, an electric connection is established between the antenna and the circuit board. | 10-29-2009 |
20110222260 | ELECTRONIC APPARATUS AND MANUFACTURING METHOD OF ELECTRONIC APPARATUS - An electronic apparatus which includes a hinge module includes a first housing in which a window unit is formed in a holding unit which holds the hinge module, a second housing which is joined to the first housing, and a substrate holding member which is arranged between the first housing and the second housing, and wherein the substrate holding member passes through the window unit of the first housing and includes a locking unit which locks the hinge module by being pressed by the second housing. | 09-15-2011 |
Patent application number | Description | Published |
20090016931 | CHEMICAL ANALYSIS DEVICE - A chemical analysis device capable of suppressing deterioration of analysis and test accuracy while avoiding contamination by residual samples or reagents and having no complicated configuration is constructed. | 01-15-2009 |
20120107180 | CHEMICAL ANALYZER - An automatic chemical analyzer in which a reaction solution is stirred by air ejected from an air ejection hole placed above a reaction container. The reaction region can be washed and cleaned sufficiently without causing damage, such as exfoliation of a coating reagent. A reaction container disk | 05-03-2012 |
20120183439 | CHEMICAL ANALYZER - A chemical analyzer has a reaction vessel magazine | 07-19-2012 |
20130121883 | CHEMICAL ANALYZER - An automatic chemical analyzer in which a reaction solution is stirred by air ejected from an air ejection hole placed above a reaction container. The reaction region can be washed and cleaned sufficiently without causing damage, such as exfoliation of a coating reagent. A reaction container disk is provided with a pore and a pressure detector connected with the pore. Before and after the stirring operation, the ejection hole (nozzle) ejecting air is moved and the output value of the pressure detector is compared with a previously measured normal value. With a discharge pipe and a suction pipe inserted to the opening of the reaction container to be close to both ends of the opening and the side wall of the container, the reaction region at the bottom of the container is washed by continuous discharge and suction of cleaning fluid. | 05-16-2013 |
Patent application number | Description | Published |
20090298288 | SILICIDE FORMING METHOD AND SYSTEM THEREOF - Radical in a plasma generation chamber is supplied to a process chamber through an introducing aperture, and HF gas is supplied as a process gas from the vicinity of the radical introducing aperture. A native oxide film of the substrate surface of a IV group semiconductor doped an impurity is removed, with a good surface roughness equal to the wet cleaning. The substrate after the surface treatment is deposited with a metal material and metal silicide formation by thermal treatment is performed, and during these processes, the substrate is not exposed to the atmosphere, and a good contact resistance equal to or better than the wet process is obtained. | 12-03-2009 |
20100075508 | METHOD OF FABRICATING A SEMICONDUCTOR DEVICE - A dielectric insulating film including HfO or the like is formed by: cleaning a surface of a semiconductor substrate by exposing the substrate surface to a fluorine radical; performing hydrogen termination processing with a fluorine radical or a hydride (SiH | 03-25-2010 |
20100221895 | SURFACE TREATMENT APPARATUS AND SURFACE TREATMENT METHOD - HF-originated radicals generated in a plasma-forming chamber are fed to a treatment chamber via feed holes, while HF gas molecules as the treatment gas are supplied to the treatment chamber from near the radical feed holes to suppress the excitation energy, thereby increasing the selectivity to Si to remove a native oxide film. Even with the dry-treatment, the surface treatment provides good surface flatness equivalent to that obtained by the wet-cleaning which requires high-temperature treatment, and further attains growth of Si single crystal film on the substrate after the surface treatment. The surface of formed Si single crystal film has small quantity of impurities of oxygen, carbon, and the like. After sputtering Hf and the like onto the surface of the grown Si single crystal film, oxidation and nitrification are applied thereto to form a dielectric insulation film such as HfO thereon, thus forming a metal electrode film. All through the above steps, the substrate is not exposed to atmospheric air, thereby suppressing the adsorption of impurities onto the interface, and thus obtaining a C-V curve with small hysteresis. As a result, good device characteristics are obtained in MOS-FET. | 09-02-2010 |
20110027979 | DIELECTRIC FILM, METHOD OF MANUFACUTRING SEMICONDUCTOR DEVICE USING DIELECTRIC FILM, AND SEMICONDUCTOR MANUFACTURING APPARATUS - To provide a method of manufacturing a dielectric film having a high dielectric constant. In an embodiment of the present invention, an HfN/Hf laminated film is formed on a substrate on which a thin silicon oxide film is formed and a dielectric film of a metal nitride made of a mixture of Hf, Si, O and N is manufactured by annealing treatment. According to the present invention, it is possible to (1) reduce an EOT, (2) reduce a leak current to Jg=1.0×10 | 02-03-2011 |
20120161322 | ELECTRONIC COMPONENT MANUFACTURING METHOD INCLUDING STEP OF EMBEDDING METAL FILM - The present invention provides an electronic component manufacturing method including a step of embedding a metal film. An embodiment of the present invention includes a first step of depositing a barrier layer containing titanium nitride on an object to be processed on which a concave part is formed and a second step of filling a low-melting-point metal directly on the barrier layer under a temperature condition allowing the low-melting-point metal to flow, by a PCM sputtering method while forming a magnetic field by a magnet unit including plural magnets which are arranged at grid points of a polygonal grid so as to have different polarities between the neighboring magnets. | 06-28-2012 |
20120258582 | METHOD AND APPARATUS FOR SELECTIVELY GROWING DOPED EPITAXIAL FILM - In one embodiment of the present invention, the processing surface of a substrate having at least a single crystal surface and a dielectric surface is exposed to a first deposition gas containing a source gas and a doping gas to form a first doped thin film on the single crystal surface, whereas supply of the first deposition gas is stopped before a film is formed on the dielectric surface. Next, the processing surface of the substrate is exposed to a second deposition gas containing a source gas and a doping gas to form a second thin film doped with less dopant than the first thin film on the single crystal surface, whereas supply of the second deposition gas is stopped before a film is formed on the dielectric surface. Subsequently, the processing surface of the substrate is exposed to a chlorine-containing gas to be etched. | 10-11-2012 |
20130071975 | METHOD AND APPARATUS FOR MANUFACTURING SEMICONDUCTOR DEVICE - The present invention provides a method and apparatus for manufacturing a semiconductor device using a PVD method and enabling achievement of a desired effective work function and reduction in leak current without increasing an equivalent oxide thickness. A method for manufacturing a semiconductor device in an embodiment of the present invention includes the steps of: preparing a substrate on which an insulating film having a relative permittivity higher than that of a silicon oxide film is formed; and depositing a metal nitride film on the insulating film. The metal nitride depositing step is a step of sputtering deposition in an evacuatable chamber using a metal target and a cusp magnetic field formed over a surface of the metal target by a magnet mechanism in which magnet pieces are arranged as grid points in such a grid form that the adjacent magnet pieces have their polarities reversed from each other. | 03-21-2013 |
20140319676 | ELECTRONIC COMPONENT MANUFACTURING METHOD AND ELECTRODE STRUCTURE - It is an object of the present invention to provide an electronic component manufacturing method, capable of suppressing reduction in a trench opening and suppressing diffusion of a metal film embedded in a trench. An embodiment of the present invention is an electronic component manufacturing method, including the steps of: forming a first electrode constituting layer (e.g., a TiAl film) in a recess (e.g., a trench) formed in a workpiece; forming an ultrathin barrier layer (e.g., a TiAlN film) by forming a nitride layer by plasma-nitriding a surface of the first electrode constituting layer; and forming a second electrode constituting layer (e.g., an Al wiring layer) on the ultrathin barrier layer. | 10-30-2014 |
20140353149 | TUNNEL MAGNETO-RESISTANCE ELEMENT MANUFACTURING APPARATUS - The present invention provides a TMR element manufacturing apparatus capable of reducing contamination of impurities in magnetic films. According to an embodiment of the present invention, a tunnel magneto-resistance element manufacturing apparatus includes: a load lock device to load and unload a substrate from and to an outside; a first substrate transfer device that is connected to the load lock device, at least one substrate process device being connected to the first substrate transfer device; a first evacuation unit provided in the first substrate transfer device; a second substrate transfer device that is connected to the first substrate transfer device, multiple substrate process devices being connected to the second substrate transfer device; and a second evacuation unit provided in the second substrate transfer device. At least one of the multiple substrate process devices connected to the second substrate transfer device is an oxidation device. | 12-04-2014 |
20150318466 | OXIDATION PROCESS APPARATUS, OXIDATION METHOD, AND METHOD FOR MANUFACTURING ELECTRONIC DEVICE - An oxidation process apparatus according to one embodiment of the present invention includes: a substrate holder provided in a processing chamber and having a substrate holding surface; a gas introduction unit for introducing an oxygen gas; a cylindrical member; and a substrate holder drive unit for changing relative positions of the substrate holder and the cylindrical member to allow the substrate holding surface and the cylindrical member to form an oxidation process space. The cylindrical member is provided so as to form a gap between the cylindrical member and the substrate holder during formation of the space. The oxygen gas is introduced restrictively into the space. The oxygen gas introduced from the gas introduction unit is evacuated through the gap. | 11-05-2015 |
20160005958 | METHOD FOR MANUFACTURING MAGNETORESISTIVE ELEMENT - Provided is a method for manufacturing a magnetoresistive element, including a step of forming a tunnel barrier layer, wherein the step of forming the tunnel barrier layer includes a deposition step of depositing a metal film on top of a substrate, and an oxidation step of subjecting the metal film to an oxidation process. The oxidation step includes holding the substrate having Mg formed thereon, on a substrate holder in a processing container in which the oxidation process is performed, supplying an oxygen gas to the substrate by introducing the oxygen gas into the processing container, at a temperature at which Mg does not sublime, and heating the substrate after the introduction of the oxygen gas. | 01-07-2016 |
Patent application number | Description | Published |
20080277589 | SEMICONDUCTOR RADIOACTIVE RAY DETECTOR, RADIOACTIVE RAY DETECTION MODULE, AND NUCLEAR MEDICINE DIAGNOSIS APPARATUS - The present invention provides a semiconductor radioactive ray detector having the excellent energy resolution or time precision, a radioactive detection module, and a nuclear medicine diagnosis apparatus. The semiconductor radioactive ray detector has a structure in which plate-like elements made of cadmium telluride and conductive members are alternately laminated and the plate-like element made of cadmium telluride and the conductive member are adhered to each other with a conductive adhesive agent, and the Young's modulus of the conductive adhesive agent is in the range from 350 MPa to 1000 MPa, while the conductive members are made from a material with the linear expansion coefficient of the conductive members in the range from 5×10 | 11-13-2008 |
20090114826 | NUCLEAR MEDICAL DIAGNOSIS APPARATUS - A PET apparatus comprises a plurality of detector units in the circumferential direction, wherein the detector unit includes a plurality of unit substrates therein, and wherein the unit substrate includes: a plurality of detectors upon which a γ-ray is incident; and an analog ASIC and digital ASIC for processing a γ-ray detection signal outputted by each of the detectors. The analog ASIC includes two slow systems having mutually different time constants, each of which outputs a pulseheight value. A noise determination part of the digital ASIC determines whether a relevant detection signal is an intended γ-ray detection signal or a noise based on a correlation between the pulseheight values, and a noise counting part counts the number of times of noise determination, and a detector output signal processing control part controls the signal processing with respect to an output signal from a relevant detector based on the count. | 05-07-2009 |
20090194701 | RADIOLOGICAL IMAGING APPARATUS - A radiological imaging apparatus using a semiconductor radiation detector to make it possible to reduce a radiation measurement off time that may result from an attempt to avoid polarization, the radiological imaging apparatus comprising a capacitor that applies a voltage to a semiconductor radiation detector that detects a radiation from a subject, first current regulated means for conducting a charge current to the capacitor, and second current regulated means for conducting a discharge current from the capacitor, or comprising a capacitor that applies a voltage to the semiconductor radiation detector, a first resistor that conducts a charge current to and a discharge current from the capacitor, and a second resistor connected in parallel with the first resistor to subject the capacitor to charging and discharging. | 08-06-2009 |
20090242780 | RADIOLOGICAL MEASUREMENT SYSTEM AND RADIOLOGICAL IMAGING SYSTEM - A radiological measurement system protecting an amplifier from damage caused by a surge current, ensuring temporal continuity of measurement with a minimum dead time, and including a high voltage DC supply for applying a bias voltage to a radiation detector formed of semiconductor crystal, a controller for exercising on-off control on the bias voltage supplied from the high voltage DC supply, an amplifier, a protection circuit for protecting the amplifier from a surge current generated when the bias voltage is subjected to the on-off control, a control unit for preventing the surge current from flowing to the amplifier, and a switch provided in parallel with the protection circuit and controlled in operation state by the control unit, wherein the control unit controls the operation state of the switch in synchronism with the on-off control exercised by the control unit to prevent the surge current from flowing to the amplifier. | 10-01-2009 |
20100282974 | NUCLEAR MEDICAL DIAGNOSIS APPARATUS - A PET apparatus comprises a plurality of detector units in the circumferential direction, wherein the detector unit includes a plurality of unit substrates therein, and wherein the unit substrate includes: a plurality of detectors upon which a γ-ray is incident; and an analog ASIC and digital ASIC for processing a γ-ray detection signal outputted by each of the detectors. The analog ASIC includes two slow systems having mutually different time constants, each of which outputs a pulseheight value. A noise determination part of the digital ASIC determines whether a relevant detection signal is an intended γ-ray detection signal or a noise based on a correlation between the pulseheight values, and a noise counting part counts the number of times of noise determination, and a detector output signal processing control part controls the signal processing with respect to an output signal from a relevant detector based on the count. | 11-11-2010 |
20100308230 | DETECTOR ARRAY SUBSTRATE AND NUCLEAR MEDICINE DIAGNOSIS DEVICE USING SAME - Provided are a detector array substrate and a nuclear medicine diagnosis device using the same. The detector array substrate is provided with a flat detection module stacked in plural detection elements, which is connected to said detectors each other, and have signal electrodes for reading out signals of respective detectors, and bias electrodes for applying bias voltage to respective detectors, in order to form plural detectors for detecting radiation; and stacked with the detectors by arranging the detection modules having the plural detectors, in an X direction, as well as by arranging the detection modules in a flat structure on both planes or one plane of a wiring board in a Z direction as for an XZ plane for detecting the radiation, and provided with the plural detection modules in a Y direction. | 12-09-2010 |
20110204248 | RADIATION MEASURING CIRCUIT, NUCLEAR MEDICINE DIAGNOSING APPARATUS, AND METHOD OF MEASURING RADIATION - Provided between a bias power supply and a radiation detector are a noise filter and a bias voltage transmitting circuit. In a state where the bias voltage is applied, the noise filter circuit operates. In a state where the bias voltage is switched on and off, the bias voltage transmitting circuit and the noise filter circuit operate. In a state where the bias voltage is switched on and off, the bias voltage transmitting circuit operates. | 08-25-2011 |
20110215254 | NUCLEAR MEDICAL DIAGNOSIS APPARATUS - A PET apparatus comprises a plurality of detector units in the circumferential direction, wherein the detector unit includes a plurality of unit substrates therein, and wherein the unit substrate includes: a plurality of detectors upon which a γ-ray is incident; and an analog ASIC and digital ASIC for processing a γ-ray detection signal outputted by each of the detectors. The analog ASIC includes two slow systems having mutually different time constants, each of which outputs a pulseheight value. A noise determination part of the digital ASIC determines whether a relevant detection signal is an intended γ-ray detection signal or a noise based on a correlation between the pulseheight values, and a noise counting part counts the number of times of noise determination, and a detector output signal processing control part controls the signal processing with respect to an output signal from a relevant detector based on the count. | 09-08-2011 |
20120326045 | RADIATION MEASUREMENT APPARATUS AND NUCLEAR MEDICINE DIAGNOSIS APPARATUS - The purpose of the present invention is to improve energy resolving power and prevent energy resolving power from deteriorating when a thick semiconductor detection element with a wide energy range is used, in a radiation measuring device using a semiconductor detector and a nuclear medicine diagnostic device. With the present invention, the purpose is achieved by pulsed wave value correction employing the difference of (Hs−Hf) between the pulsed wave height value Hs obtained from the slow speed shaping circuit, and the pulsed wave height value Hf obtained from the fast speed shaping circuit and normalized with respect to Hs. An even more desirable result may be obtained by employing either (Hs−Hf)/Hf or exp(k(Hs−Hf)/Hf), wherein k is a coefficient to be optimized, said optimization being dependent on the measurement assembly. | 12-27-2012 |
20130146767 | RADIATION MEASURING DEVICE - A radiation measuring device includes: a detector that detects radiation; a preamplifier that amplifies a signal outputted from the detector; a shaping amplifier that shapes the waveform of the signal outputted from the preamplifier; an A/D converter that converts the analog signal output from the shaping amplifier to a digital signal; and a digital data processing unit that calculates digital signal output from the A/D converter, wherein energy information of the radiation inputted to the detector is obtained from a pulse height of the pulse signal processed by the preamplifier and the shaping amplifier, and the pulse height of the current pulse is corrected in the digital data processing unit by performing an arithmetic operation using the pulse height information of the current pulse digitalized by the A/D converter, the generation time information of the preceding pulse, and the pulse height information of the preceding pulse. | 06-13-2013 |
Patent application number | Description | Published |
20140231380 | PATTERN FORMING METHOD - In one embodiment, a pattern forming method includes forming a physical guide that includes a first pattern in a first region and a second pattern in a second region on an underlying film, embedding a polymer material into a concave portion of the physical guide, microphase-separating the polymer material, to form a self-assembly pattern having a first and a second polymer sections, observing the self-assembly pattern in the second region, to determine from an observation result whether or not the self-assembly pattern in the first region has a predetermined shape, and selectively removing the first polymer section in the case of determining that the self-assembly pattern in the first region has the predetermined shape. The second pattern includes a pattern with a larger coverage ratio than the first pattern and a pattern with a smaller coverage ratio than the first pattern. | 08-21-2014 |
20140248439 | PATTERN FORMATION METHOD - According to one embodiment, a pattern formation method includes coating a polymer material on a film to be processed, the polymer material having a first segment and a second segment, the second segment containing a functional group that causes a cross-linking reaction, performing microphase separation of the polymer material to form a self-assembly pattern having a first polymer portion that contains the first segment and a second polymer portion that contains the second segment, performing irradiation with energy rays toward the self-assembly pattern in a cooling state; and selectively removing the first polymer portion. | 09-04-2014 |
20150262837 | PATTERN FORMING METHOD - According to one embodiment, a pattern forming method includes forming, on an underlying region, a neutral film having an affinity for first and second polymers, forming a first pinning part having an affinity for the first polymer by irradiating a first region of the neutral film with an energy beam, forming, on the neutral film including the first pinning part, a block copolymer film containing the first and second polymers, and performing a predetermined treatment for the block copolymer film to perform a microphase separation. | 09-17-2015 |
20150311442 | METHOD FOR FORMING PATTERN AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - In one embodiment, a method for forming pattern includes forming a guide layer on a substrate, forming a copolymer layer of a high-molecular block copolymer on the guide layer; and forming a phase-separation structure with a phase-separation cycle d by self-assembling the copolymer layer. The high-molecular block copolymer includes a first and a second polymer. The guide layer includes a first and a second region disposed on the substrate. Widths of the first and second region respectively are approximately (d/2)×n and (d/2)×m. Both of the first and second region are to be pinned with none of the first and second polymer. Surface energies of the first and second region are different from one another. Integers n and m are odd numbers. Value d is a phase-separation cycle of the high-molecular block copolymer. | 10-29-2015 |
Patent application number | Description | Published |
20110312185 | PATTERN FORMATION METHOD AND PATTERN FORMATION DEVICE - According to one embodiment, a pattern formation method includes: forming a first pattern in a first region on a substrate to be treated; coating a plurality of types of block copolymers which are different in composition ratio on a second region which is different from the first region; and forming in the second region, by a heat treatment, a second pattern including a plurality of types of structures based on the coated plurality of types of block copolymers. | 12-22-2011 |
20120058435 | PATTERN FORMATION METHOD - According to one embodiment, a pattern formation method contains: forming first guides by changing a surface energy of an underlayer material by transferring a pattern of a photomask onto the underlayer material by exposure, and forming second guides by changing the surface energy of the underlayer material between the first guides by diffraction of exposure light generated from the exposure; applying a block copolymer containing a plurality of types of polymer block chains onto the underlayer material; and causing any one of the polymer block chains to form a pattern in accordance with the first and second guides by microphase separation of the block copolymer by a heat treatment. | 03-08-2012 |
20120214094 | METHOD OF FORMING PATTERN - According to one embodiment, there is provided a method of forming a pattern including forming a polymer layer on a substrate, the polymer layer including a first and second regions, selectively irradiating either of the first and second regions with energy rays or irradiating the first and second regions with energy rays under different conditions to cause a difference in surface free energy between the first and second regions, thereafter, forming a block copolymer layer on the polymer layer, and causing microphase separation in the block copolymer layer to simultaneously form first and second microphase-separated structures on the first and second regions, respectively. | 08-23-2012 |
20120241409 | PATTERN FORMATION METHOD - In accordance with an embodiment, a pattern formation method includes: forming, on a first substrate, a fabrication target film having first and second regions; selectively applying, onto the first region a self-assembly material of a plurality of components that are phase-separable by a thermal treatment; baking the self-assembly material to phase-separate the self-assembly material into the components; removing any one of the components to form a first pattern; applying a curable resin onto the second region of the fabrication target film; bringing a dented second substrate corresponding to an arbitrary pattern closer to and into contact with the curable resin so that the second substrate faces the curable resin; curing the curable resin; detaching the second substrate from the curable resin to form a second pattern in the curable resin; and using the first and the second patterns as masks to fabricate the fabrication target film. | 09-27-2012 |
20130078570 | METHOD OF FORMING PATTERN AND LAMINATE - According to one embodiment, there is provided a method of forming a pattern, including forming a thermally crosslinkable molecule layer including a thermally crosslinkable molecule on a substrate, forming a photosensitive composition layer including a photosensitive composition on the thermally crosslinkable molecule layer, chemically binding the thermally crosslinkable molecule to the photosensitive composition by heating, selectively irradiating the photosensitive composition layer with energy rays, forming a block copolymer layer including a block copolymer on the photosensitive composition layer, and forming a microphase-separated structure in the block copolymer layer. | 03-28-2013 |
20130133825 | PATTERN FORMATION METHOD AND POLYMER ALLOY BASE MATERIAL - According to one embodiment, a pattern formation method is provided, the pattern formation includes: laminating a self-assembled monolayer and a polymer film on a substrate; causing chemical bonding between the polymer film and the self-assembled monolayer by irradiation with an energy beam to form a polymer surface layer on the self-assembled monolayer; and forming on the polymer surface layer a polymer alloy having a pattern of phase-separated structures. | 05-30-2013 |
20130210226 | PATTERN FORMATION METHOD - According to one embodiment, a pattern formation method comprises forming a hard mask material on a processed film on a wiring, forming a guide layer on the hard mask material, forming a tetragonal opening in the guide layer, coating the opening with a block polymer, heating the block polymer to form a micro phase separation structure film in which first polymer parts and second polymer parts parallel to the wiring are alternately arranged, removing the second polymer part while leaving the first polymer part, processing the hard mask material with the guide layer and the first polymer part as a mask to form a first hole pattern in the hard mask material, and processing the processed film with the hard mask material as a mask to form a second hole pattern corresponding to the first hole pattern in the processed film. | 08-15-2013 |
20140021166 | PATTERN FORMING METHOD - According to one embodiment, a pattern forming method includes forming a physical guide that includes a first predetermined pattern in a first region on a lower layer film, and includes a second predetermined pattern and a dummy pattern in a second region on the lower layer film, forming a block polymer inside the physical guide, making the block polymer microphase-separated to form a pattern having a first polymer section and a second polymer section, removing the second polymer section to form a hole pattern, and processing the lower layer film after removal of the second polymer section, with the physical guide and the first polymer section used as a mask. Shapes of the hole patterns in the first and the second predetermined patterns are transferred to the lower layer film. A shape of the hole pattern in the dummy pattern is not transferred to the lower layer film. | 01-23-2014 |
20150261092 | METHOD OF FORMING PATTERN AND LAMINATE - According to one embodiment, there is provided a method of forming a pattern, including forming a thermally crosslinkable molecule layer including a thermally crosslinkable molecule on a substrate, forming a photosensitive composition layer including a photosensitive composition on the thermally crosslinkable molecule layer, chemically binding the thermally crosslinkable molecule to the photosensitive composition by heating, selectively irradiating the photosensitive composition layer with energy rays, forming a block copolymer layer including a block copolymer on the photosensitive composition layer, and forming a microphase-separated structure in the block copolymer layer. | 09-17-2015 |