Patent application number | Description | Published |
20090022453 | Optical Deflection Method and Optical Deflection Apparatus - An optical deflection apparatus includes a signal light source configured to emit signal light having one or more wavelengths, a control light source configured to emit control light having a wavelength different from the wavelength of the signal light, a thermal lens forming optical element including a light absorption layer configured to transmit the signal light and selectively absorb the control light, and a beam-condensing unit configured to cause beam-condensation of the control light and the signal light at different convergence points in the light absorption layer. The thermal lens forming optical element causes convergence and divergence of the control light and the signal light on an incidence plane of the light absorption layer or its vicinity in a light traveling direction, wherein a thermal lens is reversibly formed in the light absorption layer due to a temperature increase occurring in a region where the control light is absorbed and its peripheral region, and the thermal lens changes a refractive index to change a traveling direction of the signal light. | 01-22-2009 |
20100245960 | Optical deflection method and optical deflection apparatus - An optical deflection apparatus includes a signal light source configured to emit signal light having one or more wavelengths, a control light source configured to emit control light having a wavelength different from the wavelength of the signal light, a thermal lens forming optical element including a light absorption layer configured to transmit the signal light and selectively absorb the control light, and a beam-condensing unit configured to cause beam-condensation of the control light and the signal light at different convergence points in the light absorption layer. The thermal lens forming optical element causes convergence and divergence of the control light and the signal light on an incidence plane of the light absorption layer or its vicinity in a light traveling direction, wherein a thermal lens is reversibly formed in the light absorption layer due to a temperature increase occurring in a region where the control light is absorbed and its peripheral region, and the thermal lens changes a refractive index to change a traveling direction of the signal light. | 09-30-2010 |
20100265568 | THERMAL LENS FORMING ELEMENT - A thermal lens forming element includes a first chamber serving as a control light absorbing region, which is configured as a columnar body or an N prismatic body (wherein N is an integer equal to or greater than 4) circumscribing the columnar body and filled with a control light absorbing dyestuff solution containing a solvent having a viscosity of 0 to 3 mPa·s at 160° C. or above and a ratio of the viscosity of the solvent at 160° C. to a viscosity of the solvent at 40° C. not less than 1 and not greater than 6, wherein the columnar body or the N prismatic body circumscribing the columnar body has a central axis coinciding with an optical axis of incident signal light. The first chamber is connected to a second chamber via a solution channel and a dam. The dyestuff solution and a bubble of an inert gas are confined in the second chamber. | 10-21-2010 |
20110081478 | Organic electroluminescent element and manufacturing method thereof - An method for manufacturing an organic electroluminescent element, the method including a positive electrode and a glass substrate sequentially laminated on one side of a light-emitting layer and a negative electrode formed on the other side of the light-emitting layer. The organic electroluminescent element has a functional layer which is formed by causing gas molecules of at least one type of compound selected from the group consisting of dyes and charge transport materials to contact and penetrate a π conjugated organic polymer compound. | 04-07-2011 |
Patent application number | Description | Published |
20140072835 | BATTERY PACK STRUCTURE FOR ELECTRIC VEHICLES - In a battery pack structure for electric vehicles that a battery module, a junction box, and a battery controller for battery management are mounted in a battery-pack-case internal space, clearances, ensured when the battery module is mounted in the case internal space, are configured as temperature-adjustment air passages through which temperature-adjusting air flows. The junction box and the battery controller are arranged at positions spaced apart from each other and facing one straight passage part of the temperature-adjustment air passages. Furthermore, a weak-electric harness, via which the junction box and the battery controller are connected to each other, is wired along the straight passage part, thus ensuring smooth flow of temperature-adjusting air, while improving both the harness-wiring workability and the harness durability. | 03-13-2014 |
20140079977 | BATTERY PACK STRUCTURE FOR ELECTRIC VEHICLES - In a battery pack structure for electric vehicles that battery modules and a controller for battery management are mounted in a battery-pack-case internal space, a first one of clearances, ensured when the battery modules are mounted in the case internal space, which first clearance extends in a first direction, is configured as a first temperature-adjustment air passage, and the second clearance, located downstream of the first temperature-adjustment air passage and extending in a second direction different from the first direction, is configured as a second temperature-adjustment air passage. The controller is arranged at a position facing the second temperature-adjustment air passage. A harness for connecting between each detection line terminal from the battery modules and the controller, and one end of the harness, which harness end is configured as harness terminals connected to the respective detection line terminals, are wired along and arranged in the second temperature-adjustment air passage. | 03-20-2014 |
20150136504 | BATTERY PACK STRUCTURE FOR ELECTRIC VEHICLES - An object of the present invention is to secure both of vehicle body floor upper space and battery mounting space, in setting of a mounting position of a high-power cut-off switch to a battery pack case. Battery pack case | 05-21-2015 |
20150144414 | HARNESS ROUTING STRUCTURE FOR ELECTRIC VEHICLE - A harness routing structure for an electric vehicle is provided with a floor panel, a below-floor component, an above-floor component and a harness. The floor panel partitions a cabin space and a below-floor space. The floor panel has a harness through-hole. The below-floor component is disposed below the floor panel. The above-floor component is disposed above the floor panel and further toward a front of the vehicle than the below-floor component. The harness electrically connects the below-floor component and the above-floor component. The harness runs through the through-hole. The harness through-hole is located, with respect to a vehicle-lengthwise direction of the floor panel, in an intermediate position between a below-floor harness connection position of the below-floor component to a first end of the harness and an above-floor harness connection position of the above-floor component to a second end of the harness. | 05-28-2015 |
Patent application number | Description | Published |
20110133084 | ELECTRON MICROSCOPE - An electron microscope according to the present invention includes a phase plate ( | 06-09-2011 |
20120112064 | SAMPLE HOLDER, METHOD FOR USE OF THE SAMPLE HOLDER, AND CHARGED PARTICLE DEVICE - A sample holder for efficiently performing the processing or observation of a sample by means of charged particles while cooling. Particularly, disclosed is a sample holder whereby the processing or observation of a material which may be affected by the influence of heat damage can be performed in a state in which the material is cooled, and furthermore, the influence due to a sample processing method using charged particles can be reduced by cooling. The sample holder is provided with a sample stage capable of fixing a sample piece extracted from a sample by ion beam irradiation, and a rotation mechanism for rotating the sample stage in a desired direction, which can be attached to an ion beam device and a transmission electron microscope device, and which has a movable heat transfer material for thermally connecting the sample stage and a cooling source, and an isolation material for thermally isolating the sample stage and the heat transfer material from the outside. According to the sample holder, the processing or observation of a sample by means of charged particle beams can be performed while efficiently cooling. | 05-10-2012 |
20120235035 | Transmission Electron Microscope and Sample Observation Method - A transmission electron microscope includes an electron gun | 09-20-2012 |
20130163076 | TRANSMISSION INTERFERENCE MICROSCOPE - Disclosed is a transmission interference microscope that provides a degree of freedom to a region being observed while obtaining pure transmission information, and obtains highly-accurate interference images at high magnification under optimized radiation conditions. An electron beam emitted from an electron source | 06-27-2013 |
20130193343 | SAMPLE DEVICE FOR CHARGED PARTICLE BEAM - Provided is a sample device for a charged particle beam, which facilitates the delivery of a sample between an FIB and an SEM in an isolated atmosphere. An atmosphere isolation unit | 08-01-2013 |
Patent application number | Description | Published |
20140242787 | PHOTOSENSITIVE RESIN COMPOSITION AND METHOD FOR PRODUCING SEMICONDUCTOR DEVICE - Disclosed is a photosensitive resin composition which exhibits positive or negative photosensitivity and is used as a mask in an ion implantation step, the photosensitive resin composition including, as a resin, (A) a polysiloxane. The photosensitive resin composition of the present invention has high heat resistance and is capable of controlling a pattern shape, and also has excellent ion implantation mask performance, thus enabling application to a low-cost high-temperature ion implantation process. | 08-28-2014 |
20150205203 | PHOTOSENSITIVE RESIN COMPOSITION, CONDUCTIVE WIRE PROTECTION FILM, AND TOUCH PANEL MEMBER - The present invention provides a photosensitive resin composition comprising an unsaturated group-containing resin (D), a (meth)acrylic compound (E) having a specific structure, a silane compound (G) having a substituent selected from the group consisting of an amino group, an amide group, a ureido group, a ketimine group, and an isocyanate group, and a photo-polymerization initiator (F), the unsaturated group-containing resin (D) being obtained by adding an epoxy group-containing unsaturated compound (C) to some acid radicals of a copolymer obtained by copolymerizing a (meth)acrylic ester (A) with an unsaturated group- and acid-containing compound (B). | 07-23-2015 |