Patent application number | Description | Published |
20110094823 | SOUND WAVE GENERATOR AND METHOD FOR PRODUCING THE SAME, AND METHOD FOR GENERATING SOUND WAVES USING THE SOUND WAVE GENERATOR - A sound wave generator that exhibits more excellent output properties than conventional ones, based on the combination of a base layer and a heat-insulating layer that cannot be expected from conventional techniques is provided. The sound wave generator includes a base layer; a heat-insulating layer disposed on the base layer; and a heat pulse source that applies heat pulses to the heat-insulating layer. The base layer is composed of graphite or sapphire, and the heat-insulating layer is composed of crystalline fine particles containing silicon or germanium. The heat pulse source, for example, is a heat pulse-generating layer that is disposed on the surface of the heat-insulating layer opposite to the base layer and applies heat pulses to the heat-insulating layer. | 04-28-2011 |
20120205762 | MAGNETIC TUNNEL JUNCTION DEVICE - The magnetic tunnel junction device of the present invention includes a first ferromagnetic layer, a second ferromagnetic layer, an insulating layer formed between the first ferromagnetic layer and the second ferromagnetic layer. The insulating layer is composed of fluorine-added MgO. The fluorine content in the insulating layer is 0.00487 at. % or more and 0.15080 at. % or less. This device, although it includes a MgO insulating layer, exhibits superior magnetoresistance properties to conventional devices including MgO insulating layers. The fluorine content is preferably 0.00487 at. % or more and 0.05256 at. % or less. | 08-16-2012 |
20130023070 | PRODUCTION METHOD FOR OXIDIZED CARBON THIN FILM, AND ELEMENT HAVING OXIDIZED CARBON THIN FILM AND PRODUCTION METHOD THEREFOR - The production method for the oxidized carbon thin film of the present disclosure includes: a first step of preparing a carbon thin film and iron oxide that is in contact with the carbon thin film and contains Fe | 01-24-2013 |
20130170290 | SPIN DEVICE, DRIVING METHOD OF THE SAME, AND PRODUCTION METHOD OF THE SAME - The present disclosure provides a spin device including: a graphene; a first ferromagnetic electrode and a second electrode that are in electrical contact with and sandwich the graphene; a third ferromagnetic electrode and a fourth electrode that sandwich the graphene at a position apart from the first and second electrodes in electrical contact with the graphene; a current applying portion that applies an electric current between the first ferromagnetic electrode and the second electrode; and a voltage-signal detecting portion that detects spin accumulation information as a voltage signal via the third ferromagnetic electrode and the fourth electrode. The spin accumulation information is generated, by application of the electric current, in a part of the graphene that is sandwiched between the third and fourth electrodes. The first and third ferromagnetic electrodes are disposed on the same surface of the graphene, and the second and fourth electrodes are non-magnetic or ferromagnetic electrodes. | 07-04-2013 |
20130217151 | METHOD FOR PRODUCING SPIN INJECTION ELECTRODE - A production method of the present disclosure includes: a first step of preparing a multi-layer graphene, and an iron oxide that is a ferromagnetic material contacting the graphene and containing Fe | 08-22-2013 |
20140080291 | METHOD FOR PRODUCING A GRAPHENE NANO-RIBBON - A method for producing a graphene nanoribbon is disclosed. This production method includes the steps of: forming a crystalline catalytic metal layer composed of copper or nickel on a (110) plane or a (112) plane of a MgAl | 03-20-2014 |
20140134409 | METHOD FOR PRODUCING THIN OXIDIZED CARBON FILM, ELEMENT HAVING THIN OXIDIZED CARBON FILM, AND METHOD FOR PRODUCING SAME - A method for producing a thin oxidized carbon film according to the present disclosure includes: a first step of preparing a thin carbon film and a copper oxide being in contact with the thin carbon film and containing a mixture of Cu | 05-15-2014 |
20140154510 | FILM STRUCTURE AND METHOD FOR PRODUCING SAME - A film structure (carbon material-insulating film structure) of the present invention includes a carbon material and an insulating film disposed on the carbon material and composed of fluorine-added magnesium oxide. The amount of added fluorine in the magnesium oxide is 0.0049 atomic percent or more and 0.1508 atomic percent or less. This film structure facilitates the realization of an electronic device, such as a spin device, which uses a carbon material such as graphene. This film structure is formed, for example, by sputtering using a target containing magnesium oxide and magnesium fluoride. | 06-05-2014 |
Patent application number | Description | Published |
20090310670 | INFORMATION PROCESSING SYSTEM, INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING METHOD, AND PROGRAM - An information processing system for performing processing of dividing a moving image into tiles and packetizing and outputting information corresponding to each tile includes a process time measuring packet generation unit adapted to generate and transmit a process time measuring packet in which a packet sending time is set to measure a packet process time, a packet process time measuring unit adapted to measure, based on the packet sending time set in the process time measuring packet and the reception time of the process time measuring packet, the packet process time necessary for processing a packet, a determination unit adapted to determine, based on the packet process time, the timestamp of the moving image divided into the tiles, and a packetization unit adapted to execute processing of packetizing and outputting the timestamp and the information of the moving image divided into the tiles. | 12-17-2009 |
20100019989 | DISPLAY SYSTEM, DISPLAY METHOD, INFORMATION PROCESSING APPARATUS, AND COMPUTER-READABLE STORAGE MEDIUM - In a display system which includes a plurality of space management units which are hierarchically connected, and each of which manages a predetermined space region as a management space region, a content management unit which manages one or a plurality of contents, and a plurality of display units which display information on display regions. Wherein each of the plurality of display units displays a content arranged in a subspace corresponding to a self display region in the management space region. | 01-28-2010 |
20100118335 | IMAGE DISPLAY APPARATUS AND METHOD FOR CONTROLLING THE SAME - An image display apparatus includes a control unit configured to display a content on a display unit, a detection unit configured to detect a printing apparatus located at a predetermined distance or less from the display unit, a calculation unit configured to calculate a position on the display unit of the printing apparatus detected by the detection unit, and a transmission unit configured to transmit, to the printing apparatus, data of a content based on the position calculated by the calculation unit among contents displayed on the display unit. | 05-13-2010 |
20100309515 | DISPLAY CONTROL APPARATUS, DISPLAY CONTROL METHOD, AND COMPUTER-READABLE STORAGE MEDIUM - A display control apparatus includes a detection unit configured to detect a position of a printing apparatus, which is close to or in contact with a display screen, a setting unit configured to set a display area corresponding to a position detected by the detection unit, a generation unit configured to generate a preview image of content data displayed on the display screen, and a display control unit configured to cause the preview image generated by the generation unit to be displayed on the display area set by the setting unit. | 12-09-2010 |
Patent application number | Description | Published |
20120281801 | CORE THERMAL LIMIT VALUE MONITORING DEVICE, CORE MONITORING SYSTEM AND CORE THERMAL LIMIT VALUE MONITORING METHOD - According to an embodiment, core thermal limit monitoring device is provided with calculating units, and signal input processing units, synchronization processing units and signal output processing units, corresponding to the calculating units. The calculating unit determines if it is necessary to output a signal to the control unit by calculating the thermal state values of the monitoring regions based on a signal representing the state of the core. The synchronization processing unit, if it is necessary to output a signal to the control unit, transmits a signal-output stop signal to the other synchronization processing units, and otherwise, the synchronization processing unit transmits a signal-output stop cancellation signal to the other synchronization processing units. The signal output processing unit, when the synchronization processing unit does not receive a signal stop signal, outputs a signal representing the calculation results of the calculating unit to the control unit. | 11-08-2012 |
20120321028 | TIP SYSTEM AND TIP MONITORING CONTROL EQUIPMENT - A TIP monitoring control equipment has: a process computer, a TIP control panel, and data transmitting unit. The process computer includes a operation input unit, a TIP scanning unit, a first TIP level data transmitting and receiving unit, and a TIP level data storage unit. To a first TIP level data transmitting and receiving unit, an LPRM level signal, an APRM level signal and TIP level data accumulated in the TIP control panel are input in synchronization with a TIP position signal. The TIP control panel includes a TIP driving control unit, a TIP level processing unit, a TIP position processing unit, a TIP level data accumulation unit and a second TIP level data transmitting and receiving unit. The second TIP level data transmitting and receiving unit transmits TIP level data accumulated in the TIP level data accumulation unit to the process computer via the data transmission unit. | 12-20-2012 |