Sasaki, Miyagi
Fumiko Sasaki, Miyagi JP
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20090059119 | OPTICAL ELEMENT PACKAGE, BACKLIGHT, AND LIQUID CRYSTAL DISPLAY DEVICE - An optical element covering member capable of improving insufficiency in rigidity of the optical element while an increase in thickness of a liquid crystal display device or deterioration of display characteristics of the liquid crystal display device is reduced, a backlight provided with the optical element covering member, and a liquid crystal display device are provided. The optical element covering member includes at least one optical element, a support medium for supporting the at least one optical element, and a covering member for covering the at least one optical element and the support medium. The at least one optical element and the support medium constitute a stack. | 03-05-2009 |
20110026240 | OPTICAL ELEMENT LAMINATE AND MANUFACTURING METHOD THEREOF, BACKLIGHT, AND LIQUID CRYSTAL DISPLAY DEVICE - An optical element laminate is provided which, while an increase in thickness of a liquid crystal display device is suppressed, improves insufficient rigidity of an optical element and, in addition, which does not degrade display characteristics of the liquid crystal display device. The optical element laminate includes a plate-shaped support member having a first primary surface and a second primary surface and an optical element which is laminated on at least one of the first primary surface and the second primary surface of the support member and, in addition, which has a film shape or a sheet shape. The periphery of the laminated optical element is at least bonded to facing two sides of the support member, the optical element and the support member are placed in close contact with each other, and a thickness t of the support member, a length L of the support member, and a tensile force F of the optical element satisfy the relational expression of 0≦F≦1.65×10 | 02-03-2011 |
Futoshi Sasaki, Miyagi JP
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20100323222 | MAGNETIC RECORDING MEDIUM AND METHOD FOR MANUFACTURING THE SAME - A magnetic recording medium includes: a nonmagnetic support having both principal planes, a nonmagnetic layer formed on one principal plane of the nonmagnetic support and containing a nonmagnetic powder, a conductive particle and a binder, and a magnetic layer formed on the nonmagnetic layer and containing a magnetic powder, a conductive particle and a binder, wherein each of the nonmagnetic layer and the magnetic layer is prepared in a wet on dry mode, and a conduction point particle size of the conductive particle contained in the magnetic layer falls within the range of 3 times or more and not more than 5 times an average thickness of the magnetic layer. | 12-23-2010 |
Hidetada Sasaki, Miyagi JP
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20090137683 | Anticancer effect enhancer - An object of the present invention is to provide an enhancing agent for effect of anticancer agent for achieving an excellent therapeutic effect on cancer. The enhancing agent for effect of anticancer agent according to the present invention which is a solving means therefor is characterized in that a nitric oxide donor is an effective ingredient. In accordance with the present invention, an excellent therapeutic effect is able to be achieved on non-small cell lung cancer which is still in such a state that no effective therapeutic method has been established yet for a progressive cancer which is not operable and is one of cancers where chemotherapy is most difficult to apply. | 05-28-2009 |
Masatoshi Sasaki, Miyagi JP
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20120293732 | PHASE DIFFERENCE ELEMENT AND METHOD FOR MANUFACTURING THE SAME - A phase difference element capable of reducing reflection of incident light and a manufacturing method for the phase difference element are disclosed. The phase difference element includes a transparent substrate | 11-22-2012 |
20130135727 | WAVE PLATE AND WAVE PLATE MANUFACTURING METHOD - A wave plate capable of increasing a birefringence quantity and being made into a thin film, and a method of manufacturing the wave plate. The wave plate includes a substrate, whereon convex portions and concave portions are formed with a period less than or equal to the wavelength of light that is used therewith, columnar portions, wherein fine grains of a dielectric material are layered by oblique vapor deposition of a dielectric material from two directions, in a columnar shape on the convex portions in the vertical direction relative to the surface of the substrate, and interstices that are located on the concave portions and disposed between the columnar portions. Using birefringence from the fine grains of the dielectric material and birefringence from the concave/convex portions of the substrate allows increasing the birefringence quantity and making a thin film. | 05-30-2013 |
20130177717 | METHOD FOR PRODUCING WAVELENGTH PLATE - To produce a wavelength plate that is superior in durability and stability and has a high moisture resistant property. A dielectric material is obliquely vapor deposited on a substrate so as to form a birefringent layer that has columnar portions in each of which fine particles of the dielectric material are stacked in a columnar shape, and interstices that are respectively formed between the columnar portions, and the birefringent layer is subjected to an annealing treatment at a temperature within the range of 100° C. or more to 300° C. or less. Then, a protective film with low moisture permeability is formed on the annealed birefringent layer by forming an inorganic compound on the birefringent layer at high density. | 07-11-2013 |
Nobutaka Sasaki, Miyagi JP
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20150179415 | SUBSTRATE PROCESSING APPARATUS - A substrate processing apparatus includes a chamber including a process chamber for performing a process on a substrate by a gas introduced thereto and an exhaust chamber for evacuating the gas in the process chamber, a shield member for separating the process chamber from the exhaust chamber provided in at least a part of a neighborhood of a side wall of the chamber, and a hollow relay member penetrating through the shield member for communicating the chamber with a pipe connected to a pressure gauge outside the chamber. The relay member is configured to receive a first gas flowing from the chamber into the relay member. The first gas has a first conductance. The first conductance is greater than a second conductance of a second gas flowing from the exhaust chamber into a gap between the relay member and the side wall of the chamber. | 06-25-2015 |
20150228462 | PLASMA PROCESSING APPARATUS - In a plasma processing apparatus, a partition wall connects a mounting table and a bottom wall of a processing chamber. A power feed member is disposed within the space surrounded by the partition wall and connected to the mounting table. A driving frame extends into the space surrounded by the partition wall from the outside of the sidewall of the processing chamber to be connected to the bottom of the mounting table. A driving mechanism is disposed to the outside of the processing chamber to move the driving frame vertically. At the bottom of a gas exhaust space, an annular gas exhaust passageway is defined by the partition wall and the sidewall and bottom wall of the processing chamber. The gas exhaust unit is interconnected to the gas exhaust passageway through a gas exhaust port at the bottom wall of the processing chamber. | 08-13-2015 |
20150245460 | PLASMA PROCESSING APPARATUS AND METHOD FOR PROCESSING OBJECT - A plasma processing apparatus includes a processing chamber including a sidewall; a mounting table including a lower electrode and provided in the processing chamber; an upper electrode arranged to face the lower electrode in a first direction; a high frequency power supply configured to apply a high frequency power for plasma generation to the upper electrode; a gas supply system for supplying a processing gas into the processing chamber; and a grounding unit connected to a ground potential. A first space is defined between the mounting table and the sidewall. A second space is defined between the upper electrode and the lower electrode. The grounding unit is configured to move independently from the upper electrode in the first direction in a third space which extends to the first space in the first direction and also to the second space in a second direction perpendicular to the first direction. | 08-27-2015 |
Norikazu Sasaki, Miyagi JP
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20150059859 | APPARATUS FOR DIVIDING AND SUPPLYING GAS AND METHOD FOR DIVIDING AND SUPPLYING GAS - An apparatus for dividing and supplying gas is provided with a flow rate control device, a plurality of divided flow passages of gas flowing from the flow rate control device, thermal-type mass flow sensors disposed to the divided flow passages, electrically-operated valves disposed on a downstream side of the thermal-type mass flow sensors, controllers that control the electrically-operated valves, and a flow ratio setting calculator that calculates a total flow rate, then calculates flow rates of the divided flow passages, and then inputs the calculated flow rates as set flow rates to each controllers. One of the divided flow passages with the highest set flow rate is put in an uncontrolled state, and opening degree for each of the rest divided flow passages is controlled, and then feedback control of the divided flow rate of each of the divided flow passages is implemented by each of the controllers. | 03-05-2015 |
20150330631 | METHOD FOR PREVENTING EXPLOSION OF EXHAUST GAS IN DECOMPRESSION PROCESSING APPARATUS - Disclosed is a plasma processing apparatus in which a main control unit is capable of managing the processing situation of an exhaust gas in an exhaust gas processing unit through a dilution controller. The exhaust gas processing unit includes a detoxifying device connected to the outlet of a vacuum pump through an exhaust pipe, a dilution gas source connected to the exhaust pipe near the outlet of the vacuum pump through a dilution gas supply pipe, an MFC and an opening/closing valve installed at the middle of the dilution gas supply pipe, a gas sensor attached to the exhaust pipe on the downstream side of an end (node N) of the dilution gas supply pipe, and a dilution controller configured to control the MFC. | 11-19-2015 |
Ryo Sasaki, Miyagi JP
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20160042926 | PLASMA PROCESSING APPARATUS AND FOCUS RING - Disclosed is a plasma processing apparatus including a focus ring installed outside a substrate mounted on a mounting table including a temperature control mechanism. The focus ring is configured to be in contact with the mounting table via a heat transfer sheet. A heat insulating layer having a heat conductivity lower than that of the focus ring is provided on a surface of the focus ring at a side of the heat transfer sheet among surfaces of the focus ring. | 02-11-2016 |
Shin Sasaki, Miyagi JP
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20080257044 | Vibratory Gyrosensor - To improve characteristics by achieving size reduction and high Q value with a simple structure. A vibratory gyrosensor | 10-23-2008 |
20090174292 | VIBRATING GYROSENSOR - A vibrating gyrosensor includes a support substrate on which a wiring pattern having lands is formed. A vibrating element is mounted on a surface of the support substrate. The vibrating element includes a base part having a mounting surface on which a number of terminals connectable to the lands is formed. A vibrator part integrally projects from a side of the base part and has a substrate-facing surface coplanar with the mounting surface of the base part. The vibrator part has a first electrode layer, a piezoelectric layer, and a second electrode layer which are laminated on the substrate-facing surface. The vibrator part vibrates when an AC signal is applied between the first and second electrode layers. The central electric field strength of the AC signal is set at a position shifting to the positive direction from the center of a hysteresis loop of the piezoelectric layer. | 07-09-2009 |
20090320593 | VIBRATION TYPE GYRO SENSOR - A vibration type gyro sensor according to the present invention includes vibrating elements | 12-31-2009 |
Shintarou Sasaki, Miyagi JP
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20110146878 | MANUFACTURING METHOD AND MANUFACTURING APPARATUS FOR A NON-CONTACT COMMUNICATION MEDIUM - Provided is a manufacturing method for a non-contact communication medium, including: forming in a first region a first structure including an IC chip mounted on the first region, a first adhesive in an uncured state, which is applied on the IC chip, and a first plate member placed on the first adhesive; forming in a second region a second structure including a second adhesive in an uncured state, which is applied on the second region, and a second plate member placed on the second adhesive; sandwiching the first region and the second region by a first partition wall capable of partitioning the first region and accommodating the first structure and a second partition wall capable of partitioning the second region and accommodating the second structure; and heating the first partition wall and the second partition wall, to thereby thermally cure the first adhesive and the second adhesive, respectively. | 06-23-2011 |
Takehisa Sasaki, Miyagi JP
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20120133009 | RADIATION DETECTING ELEMENT AND RADIATION DETECTING DEVICE - There has been such a problem that radiation detecting elements using semiconductor elements have a low radiation detection efficiency, since the radiation detecting elements easily transmit radiation, even though the radiation detecting elements have merits, such as small dimensions and light weight. Disclosed are a radiation detecting element and a radiation detecting device, wherein a film formed of a metal, such as tungsten, is formed on the radiation incident surface of the radiation detecting element, and the incident energy of the radiation is attenuated. The efficiency of generating carriers by way of radiation incidence is improved by attenuating the incident energy, the thickness of the metal film is optimized, and the radiation detection efficiency is improved. | 05-31-2012 |
20140312442 | RADIATION DETECTING ELEMENT AND RADIATION DETECTING DEVICE - There has been such a problem that radiation detecting elements using semiconductor elements have a low radiation detection efficiency, since the radiation detecting elements easily transmit radiation, even though the radiation detecting elements have merits, such as small dimensions and light weight. Disclosed are a radiation detecting element and a radiation detecting device, wherein a film formed of a metal, such as tungsten, is formed on the radiation incident surface of the radiation detecting element, and the incident energy of the radiation is attenuated. The efficiency of generating carriers by way of radiation incidence is improved by attenuating the incident energy, the thickness of the metal film is optimized, and the radiation detection efficiency is improved. | 10-23-2014 |
Toru Sasaki, Miyagi JP
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20140103074 | DRIPPING PREVENTION APPARATUS IN SEALER GUN - A sealer gun that discharges a liquid material of a coating agent/a filler from a nozzle on its tip is securely prevented from producing dripping that arises as a liquid material drips from the tip of the nozzle and remains when a discharge of the liquid material is stopped. | 04-17-2014 |
Yuichi Sasaki, Miyagi JP
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20100117503 | METAL OXIDE NANOPARTICLES, PRODUCTION METHOD THEREOF, LIGHT-EMITTING ELEMENT ASSEMBLY, AND OPTICAL MATERIAL - A method of producing metal oxide nanoparticles includes the steps of (A) mixing a metal alkoxide, a surfactant, and a first organic solvent under an inert atmosphere to prepare a reaction solution, (B) mixing a reaction initiator prepared by mixing a catalyst with a solvent and the reaction solution under an inert atmosphere and heating to produce an intermediate product, and (C) mixing the intermediate product with a second organic solvent followed by heating the mixture of the intermediate product and the second organic solvent under an inert atmosphere to prepare metal oxide nanoparticles, the surfaces of which are coated with the surfactant. | 05-13-2010 |
20110164322 | ANTIREFLECTIVE FILM, METHOD OF PRODUCTION THEREOF, AND UV-CURABLE RESIN MATERIAL COMPOSITION COATING LIQUID - A UV-curable resin material composition coating liquid is provided and includes a UV-curable resin material composition dissolved or dispersed in a nonpolar solvent or a substantially nonpolar mixed solvent. The UV-curable resin material composition includes a monomer and/or an oligomer thereof that have two or more (meth)acryloyl groups, and affinity to a nonpolar solvent, modified hollow silica fine particles altered to have affinity to a nonpolar solvent by introduction of an aliphatic hydrocarbon group to surfaces of hollow silica fine particles, and a polymerization initiator. | 07-07-2011 |