| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 短光パルス発生装置、テラヘルツ波発生装置、カメラ、イメージング装置、および計測装置 | JP2013261359 | 2013-12-18 | JP2015118241A | 2015-06-25 | 中山 人司 |
| 【課題】パルス幅の小さい光パルスを発生することができる短光パルス発生装置を提供する。 【解決手段】本発明に係る短光パルス発生装置100は、光パルスを生成する光パルス生成部10と、多層膜ミラーおよび量子井戸構造を有し、かつ、光パルスを反射する半導体可飽和吸収ミラー20と、半導体可飽和吸収ミラー20にて反射された光パルスに、波長に応じた群速度差を生じさせる群速度分散部30と、を含む。 【選択図】図1 |
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| 42 | 光電子集積回路、アレイアンテナ発信器、アレイアンテナ受信器、および発信器 | JP2011206848 | 2011-09-22 | JP5715018B2 | 2015-05-07 | 若月 温; 石橋 忠夫 |
| 43 | Apparatus for generating a millimeter-wave optical signal to be used in optical data transmission, and methods | JP2010290332 | 2010-12-27 | JP5230719B2 | 2013-07-10 | モハマド ロムリ; ラズマン ヤーヤ モハマド; ラズリ ワン アブドゥラー ワン; モハマド サムスリ ノルハキマー; アーマド アスマハニム; ヤーコブ シャムスリ; ザムズリ アブドゥル カディル ムハンマド |
| 44 | Terahertz continuous wave generation device and method | JP2010162133 | 2010-07-16 | JP2011028268A | 2011-02-10 | KIM SUNG IL; RYU HAN CHEOL; KANG SEONG BEOM; KWAK MIN HWAN; KANG KWANG YONG |
| <P>PROBLEM TO BE SOLVED: To provide a terahertz continuous wave generation device and a terahertz continuous wave generation method. <P>SOLUTION: The terahertz continuous wave generation device includes: an optical carrier wave providing part for providing two optical carrier waves having a single wavelength, a light intensity modulation part for receiving one of the two optical carrier waves to generate a DSB-SC signal, an extraction part for receiving the other of the two optical carrier waves to extract an optical carrier wave of a single polarized component, and an optical coupler for coupling the optical carrier wave of the single polarized component and the DSB-SC signal. The terahertz continuous wave generation device comprising one light source, one light intensity modulator, a passive optical component, and a photoelectric transducer, suppresses optical carrier waves using polarization characteristics being fundamental characteristics of a light source without using separate optical filter. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 45 | Communication apparatus and control method thereof | JP2009059562 | 2009-03-12 | JP2010213191A | 2010-09-24 | INOHIZA HIROHIKO; KUWANA ICHIRO |
| <P>PROBLEM TO BE SOLVED: To solve a problem that a communication path of a high speed transmission channel tends to be interrupted causing data possibly not being sent normally, meanwhile, the communication path of a low speed transmission channel is hard to be interrupted compared with the high speed transmission channel, in an apparatus which can transmit the data by the high speed transmission channel and the low speed transmission channel. <P>SOLUTION: A communication apparatus transmits compressed data through the low speed transmission channel, and transmits loss data lost by compression through the high speed transmission channel. A receiving side apparatus synthesizes and outputs data which is the expanded data of the compressed data and the loss data. When the loss data cannot be received, the data which are the expanded data of the compressed data are output. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 46 | Millimeter wave transceiving system, and reflecting plate | JP2008289927 | 2008-11-12 | JP2010118845A | 2010-05-27 | SUEMATSU EIJI; YAMAMOTO TORU; SATO KEISUKE |
| <P>PROBLEM TO BE SOLVED: To actualize a millimeter wave transceiving system that can be installed easily. <P>SOLUTION: The millimeter wave transceiving system 100 for transceiving millimeter waves includes a transmitting device 1 for transmitting millimeter waves, a reflecting plate 41 for reflecting the millimeter wave transmitted from the transmitting device 1, and a receiving device 2 for receiving the millimeter waves reflected by the reflecting plate 41. The reflecting plate 41 includes a metal plate, a metal sheet, or a metal film as a reflecting surface 43 for reflecting the millimeter waves. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 47 | METHOD AND DEVICE FOR REMOTELY COMMUNICATING BY USING PHOTOLUMINESCENCE OR THERMOLUMINESCENCE | PCT/EP2005052348 | 2005-05-23 | WO2005117306B1 | 2006-11-02 | DESBRANDES ROBERT; VAN GENT DANIEL LEE |
| The described method and device serve to remotely communicate or control by using photoluminescent or thermoluminescent molecules. A number of samples containing the photoluminescent or thermoluminescent molecules are irradiated simultaneously and together by gamma, X, ultraviolet or visible rays emitted in a cascading manner from an atomic source or from the target of a linear particle accelerator or of a nonlinear crystal. When the samples are separated, one of them is stimulated, i.e. the master, by a conventional method of infrared or white illumination or by heating, and the partially correlated luminescence of the other(s), i.e. the slaves, is measured. No method exists for interfering between the master and slaves. The slave(s) is/are the only one(s) that can instantaneously receive the signal of the master across all media and at all distances. The method and devices are provided, in particular, for use in communications or control applications. | ||||||
| 48 | 송신 매체상에 기본파 모드를 유도하기 위한 방법들 및 장치 | KR20187002257 | 2016-04-20 | KR20180021121A | 2018-02-28 | HENRY PAUL SHALA; BENNETT ROBERT; BARZEGAR FARHAD; GERSZBERG IRWIN; BARNICKEL DONALD J; WILLIS THOMAS M III |
| 본개시의양태들은, 예를들면, 기본파모드를갖는전자기파들을생성하고, 전자기파들의전파를가이드하기위해전자기파들을송신매체의인터페이스로지향시키기위한시스템을포함할수 있다. 다른실시예들이개시된다. | ||||||
| 49 | 광대역폭 데이터 프레임을 통신하는 장치, 방법 및 시스템 | KR1020177014188 | 2015-11-25 | KR1020170099867A | 2017-09-01 | 카쉐르아사프; 코데이로카를로스; 트레이닌솔로몬비 |
| 몇몇예시적인실시예는광대역폭데이터프레임을통신하는장치, 디바이스, 시스템및 방법을포함한다. 예컨대, 장치는광대역폭밀리미터파(mmWave) 채널상에서송신될적어도하나의광대역폭데이터프레임을생성하는제어기(광대역폭 mmWave 채널은복수의 mmWave 채널을포함함)와, 복수의 mmWave 채널상에서복수의예약프레임을송신하는송신기(복수의예약프레임중 하나의예약프레임은광대역폭데이터프레임의지속기간에대응하는지속기간값과, 광대역폭 mmWave 채널상에서광대역폭데이터프레임이송신될것임을나타내는광대역폭표시를포함하되, 송신기는광대역폭 mmWave 채널상에서적어도하나의광대역폭데이터프레임을송신함)를포함할수 있다. | ||||||
| 50 | 광 섬유를 사용하여 광대역 무선 시그널을 전송하기 위한 안정적인 밀리미터파 소스 | KR1020100127611 | 2010-12-14 | KR101748876B1 | 2017-06-19 | 모하마드,롬리; 야햐,모하메드라즈만; 압둘라,완라즐리완; 삼수리,노르하키마엠디; 아마드,아스마하님; 야콥,시암수리; 카디르,무함마드잠주리압둘 |
| 광데이터전송을위한밀리미터파반송파(carrier) 시그널발생장치및 방법이개시되었다. 밀리미터파반송파시그널발생장치는가변스토크라인멀티-파장광 시그널을만드는 SBS(Stimulated Brillouin Scattering) 소스(101), 광증폭기(102, 108), SBS 소스(101)의증폭된아웃풋을동일한크기, 주파수, 위상및 전자기모드의 2개의동일한광 시그널로분할하는광 분할기(103), 동일한대역-통과를갖는동일한광 동조가능한대역-통과필터(104, 105), 커플러(107)의아웃풋이필요한밀리미터파주파수에상당하는파장간격을갖는듀얼파장광 시그널이도록광 필터(104, 105)로부터방사된광 시그널을결합하는광 커플러(107), 광시그널을헤테로다인처리에의해전기시그널로변환하는광-검출기(109), 그리고광 증폭기(102, 108)의게인과, 광대역-통과필터(104, 105)의독립적인동조와, 전기밀리미터파아웃풋에따라결정되는상기 SBS 소스(101)에의해만들어진스토크라인의개수를제어하는제어기회로(106)를포함한다. | ||||||
| 51 | 광 섬유를 사용하여 광대역 무선 시그널을 전송하기 위한 안정적인 밀리미터파 소스 | KR1020100127611 | 2010-12-14 | KR1020110136681A | 2011-12-21 | 모하마드,롬리; 야햐,모하메드라즈만; 압둘라,완라즐리완; 삼수리,노르하키마엠디; 아마드,아스마하님; 야콥,시암수리; 카디르,무함마드잠주리압둘 |
| PURPOSE: A safe millimeter source is provided to supply a synchronous characteristic to enable a user to select frequency which is related for wireless data transmission of a wideband. CONSTITUTION: A millimeter wave signal generating device includes a controller circuit(106). The control circuit satisfies a millimeter wave electric signal output. The controller circuit controls the number of the stock lines which is irradiated by an SBS source(101), gains of an optical amplifiers(102,108), and bandwidth passing filters(104,105) based on an electric millimeter output. The controller is an optical control circuit. | ||||||
| 52 | ÜBERTRAGUNGSANORDNUNG ZUM ÜBERTRAGEN VON DATEN MIT EINER TRÄGERWELLE IM TERAHERTZBEREICH | EP14193385.3 | 2014-11-17 | EP2876824B1 | 2018-08-15 | Braun, Ralf-Peter; Schneider, Thomas; Preußler, Stefan; Grigat, Michael |
| 53 | WIRELESS JOSEPHSON PARAMETRIC CONVERTER | EP16780864.1 | 2016-04-15 | EP3284115A1 | 2018-02-21 | SLIWA, Katrina; HATRIDGE, Michael; NARLA, Anirudh; SHANKAR, Shyam; FRUNZIO, Luigi; SCHOELKOPF III, Robert, J.; DEVORET, Michel |
| A wireless Josephson-junction-based parametric converter is described. The converter may be formed on a substrate with antennas that pump are configured to wirelessly receive pump, signal and idler frequencies and couple the received frequencies to the converter's circuitry. Capacitors may also be fabricated on the same substrate and sized to tune operation of the converter to desired frequencies. The converter may be coupled directly to microwave waveguides, and may be tuned to different signal frequencies by applying magnetic flux to the converter circuitry. | ||||||
| 54 | FLUX CONTROL OF QUBIT UNDER RESONANT EXCITATION | EP16706466.6 | 2016-02-04 | EP3254241A1 | 2017-12-13 | MEDFORD, James R. |
| Systems and methods are provided for flux control of a qubit. A quantum system includes a microwave transmitter configured to provide a continuous microwave tone, and a qubit configured such that a portion of an energy spectrum of the qubit is responsive to an applied flux. The qubit also has an inductive element responsive to the continuous microwave tone to produce a Rabi oscillation within the qubit. A flux source is configured to apply a flux to the qubit. | ||||||
| 55 | RACK LEVEL PRE-INSTALLED INTERCONNECT FOR ENABLING CABLELESS SERVER/STORAGE/NETWORKING DEPLOYMENT | EP15768343 | 2015-03-11 | EP3123845A4 | 2017-11-15 | ADILETTA MATTHEW J; GORIUS AARON; WILDE MYLES; WILKINSON HUGH; KUMAR AMIT Y |
| Apparatus and methods for rack level pre-installed interconnect for enabling cableless server, storage, and networking deployment. Plastic cable waveguides are configured to couple millimeter-wave radio frequency (RF) signals between two or more Extremely High Frequency (EHF) transceiver chips, thus supporting millimeter-wave wireless communication links enabling components in the separate chassis to communicate without requiring wire or optical cables between the chassis. Various configurations are disclosed, including multiple configurations for server chassis, storage chassis and arrays, and network/switch chassis. A plurality of plastic cable waveguide may be coupled to applicable support/mounting members, which in turn are mounted to a rack and/or top-of-rack switches. This enables the plastic cable waveguides to be pre-installed at the rack level, and further enables racks to be installed and replaced without requiring further cabling for the supported communication links. The communication links support link bandwidths of up to 6 gigabits per second, and may be aggregated to facilitate multi-lane links. | ||||||
| 56 | RADIO FREQUENCY SIGNAL TRANSCEIVER, COHERENT RADAR RECEIVER AND METHOD OF PROCESSING RADIO FREQUENCY SIGNALS | EP12718648.4 | 2012-04-30 | EP2845332B1 | 2017-03-29 | GHELFI, Paolo; BOGONI, Antonella |
| An RF signal transceiver comprising a mode-locked laser to output an optical signal having a plurality of phase-locked modes, an optical splitter to power split the optical signal into a transmitter optical signal and a receiver optical signal; a transmitter apparatus to receive the transmitter optical signal and comprising an optical filter to select two of the modes, an optical modulator to modulate a part of the transmitter optical signal to form at least one phase modulated optical signal, and a photodetector to heterodyne the phase modulated optical signal with one of the modes without a corresponding phase modulation to form an RF signal for transmission; and a receiver apparatus arranged to receive an RF signal and the receiver optical signal and comprising an optical modulator to modulate the receiver optical signal with the received RF signal; and an optical to electrical signal conversion apparatus to convert the modulated receiver optical signal into a corresponding electrical signal. | ||||||
| 57 | HIGH PERFORMANCE COMPACT RF RECEIVER FOR SPACE FLIGHT APPLICATIONS | EP14861339.1 | 2014-10-23 | EP3069411A1 | 2016-09-21 | KARRAS, Thomas W.; ROBERTSON, Stephen V.; SROGA, Jeffrey T.; PAOLELLA, Arthur |
| A compact photonic radio frequency receiver system includes a laser source that is configured to generate laser light Radio frequency (RF) and local oscillator (LO) input ports may receive RF and LO signals, respectively. One or more miniature lithium niobate waveguide phase modulators may be coupled to the laser source to receive the RF and LO signals and to modulate the laser light with the RF and LO signals in a first and a second path, and to generate phase-modulated laser lights including an RF-modulated light signal and an LO-modulated light signal. A first and a second miniature filter may be coupled to the miniature lithium niobate waveguide to separate a desired spectral band in the phase-modulated laser light of the first path and to facilitate wavelength locking of the laser light of the second path. An optical combiner may combine output laser lights of the first and second filters. | ||||||
| 58 | MULTIMEDIA STREAM TRANSMISSION METHOD AND SYSTEM BASED ON TERAHERTZ WIRELESS COMMUNICATION | EP13781384 | 2013-02-28 | EP2846481A4 | 2016-02-24 | WANG KAILONG; LI XIANGLAI; GE QI |
| The present invention provides a multimedia stream transmission method and a system based on terahertz wireless communication. A media providing device sends a multimedia stream through a terahertz wireless signal, and a media receiving device receives the multimedia stream in real time, so as to achieve the real-time broadcast and transmission of the multimedia stream. Through the transmission mode based on terahertz wireless communication, the present invention generally improves the transmission rate and quality of the multimedia stream, and enhances the quality of a picture displayed by the multimedia stream. | ||||||
| 59 | Durchstimmbare Erzeugung von Millimeterwellen und Terahertzwellen | EP13163794.4 | 2013-04-15 | EP2793328A1 | 2014-10-22 | Schneider, Thomas |
Verfahren und System zur Erzeugung von Millimeter- oder Terahertzwellen durch Überlagerung zweier optischer Wellen unterschiedlicher Frequenz, wobei ein Frequenzkamm erzeugt und in Ausbreitungsrichtung in ein optisch nichtlineares Medium, insbesondere eine Singlemode Faser (4), eingekoppelt wird, wobei zwei Pumpwellen erzeugt und entgegen der Ausbreitungsrichtung in das optisch nichtlineare Medium eingekoppelt werden, wobei die Wellenlängen der Pumpwellen derart eingestellt werden, dass sie zwei Frequenzen aus dem Frequenzkamm vermittels stimulierter Brillouin Streuung verstärken, wobei die beiden verstärkten Frequenzen in Ausbreitungsrichtung aus dem Medium ausgekoppelt und in einem optischen Sensor, insbesondere einer Photodiode (12), heterodyn überlagert werden, wobei die Überlagerung einem Ausgangssignal des Sensors (12) eine Differenzfrequenz aufprägt, die ausgekoppelt wird, wobei der Frequenzkamm mittels einer einzigen modengekoppelten Laserquelle, insbesondere mittels eines Kurzpuls-Lasers (1), erzeugt wird, und wobei die Pumpwellen auf die beiden zu verstärkenden Frequenzen stabilisiert und nicht zu verstärkende Frequenzen des Frequenzkamms unterdrückt werden.
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| 60 | PROCEDE ET APPAREILLAGE POUR COMMUNIQUER A DISTANCE EN UTILISANT L'INTERPRETATION DE SIGNAUX DE THERMOLUMINESCENCE OU DE PHOTOLUMINESCENCE | EP07727352.2 | 2007-03-26 | EP2036227B1 | 2014-07-09 | DESBRANDES, Robert |
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