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    • 3. 发明授权
    • Private key delivery system and a private key delivery method
    • 私钥交付系统和私钥交付方式
    • US07801309B2
    • 2010-09-21
    • US11209677
    • 2005-08-24
    • Kazuya TakemotoTatsuya Usuki
    • Kazuya TakemotoTatsuya Usuki
    • H04L9/08H04L9/00G06E3/00
    • B82Y20/00B82Y10/00H04L9/0858H04L2209/56
    • A private key delivery system and a private key delivery method are disclosed. The private key delivery system includes a transmitter, a receiver, and an optical transmission line connecting the transmitter and the receiver. The transmitter includes a single photon generating unit for simultaneously generating two or more single photons having different wavelengths using a quantum dot structure that has quantum dots of various sizes, an optical splitter for splitting the single photons by wavelengths, a phase modulating unit for modulating each of the single photons split by the wavelengths with private key information, and an optical multiplexer for multiplexing the modulated single photons of the different wavelength and for transmitting the multiplexed single photons to the optical transmission line. The multiplexed single photons are received by the receiver, and the private key information is taken out from the received single photons.
    • 公开了私钥传送系统和私钥递送方法。 私钥传送系统包括发射机,接收机和连接发射机和接收机的光传输线路。 发射机包括单个光子产生单元,用于使用具有各种尺寸的量子点的量子点结构同时产生具有不同波长的两个或更多个单个光子,用于通过波长分割单个光子的光分路器,用于调制每个光子的相位调制单元 由具有私钥信息的波长分离的单个光子,以及用于复用不同波长的调制单个光子并用于将多路复用单个光子发射到光传输线的光复用器。 复用的单个光子由接收机接收,并且从接收的单个光子中取出私钥信息。
    • 4. 发明申请
    • Private key delivery system and a private key delivery method
    • 私钥交付系统和私钥交付方式
    • US20060210083A1
    • 2006-09-21
    • US11209677
    • 2005-08-24
    • Kazuya TakemotoTatsuya Usuki
    • Kazuya TakemotoTatsuya Usuki
    • H04L9/00
    • B82Y20/00B82Y10/00H04L9/0858H04L2209/56
    • A private key delivery system and a private key delivery method are disclosed. The private key delivery system includes a transmitter, a receiver, and an optical transmission line connecting the transmitter and the receiver. The transmitter includes a single photon generating unit for simultaneously generating two or more single photons having different wavelengths using a quantum dot structure that has quantum dots of various sizes, an optical splitter for splitting the single photons by wavelengths, a phase modulating unit for modulating each of the single photons split by the wavelengths with private key information, and an optical multiplexer for multiplexing the modulated single photons of the different wavelength and for transmitting the multiplexed single photons to the optical transmission line. The multiplexed single photons are received by the receiver, and the private key information is taken out from the received single photons.
    • 公开了私钥传送系统和私钥递送方法。 私钥传送系统包括发射机,接收机和连接发射机和接收机的光传输线路。 发射机包括单个光子产生单元,用于使用具有各种尺寸的量子点的量子点结构同时产生具有不同波长的两个或更多个单个光子,用于通过波长分割单个光子的光分路器,用于调制每个光子的相位调制单元 由具有私钥信息的波长分离的单个光子,以及用于复用不同波长的调制单个光子并用于将多路复用单个光子发射到光传输线的光复用器。 复用的单个光子由接收机接收,并且从接收的单个光子中取出私钥信息。
    • 6. 发明申请
    • ELECTROCONDUCTIVE LAMINATE
    • 电极层压板
    • US20100171406A1
    • 2010-07-08
    • US12726905
    • 2010-03-18
    • Masayuki MorinoKazuya TakemotoHideaki MiyazawaMichihisa TomidaTamotsu MorimotoYuichi Hino
    • Masayuki MorinoKazuya TakemotoHideaki MiyazawaMichihisa TomidaTamotsu MorimotoYuichi Hino
    • H01K1/26B32B15/04B32B5/00B32B37/02H05K9/00
    • H05K9/0088Y10T428/26Y10T428/31678
    • To provide an electroconductive laminate which has a broad transmission/reflection band and which is excellent in electrical conductivity (electromagnetic wave shielding properties), visible light transmittance, visible light antireflection properties, near infrared shielding properties and moisture resistance, and an electromagnetic wave shield for a plasma display employing such a laminate.An electroconductive laminate 20 comprising a substrate 21 and an electroconductive film 22 formed on the substrate 21, wherein the electroconductive film 22 has a multilayer structure having a high refractive index layer (23a to 23e) and a metal layer (24a to 24d) alternately laminated in this order from the substrate side in a total number of 2n+1 layers (wherein n is an integer of from 1 to 12) and further having a hydrogenated carbon layer 25 at a position most removed from the substrate 21; the refractive index of the high refractive index layer (23a to 23e) is from 1.5 to 2.7; the hydrogenated carbon layer 25 contains carbon atoms and hydrogen atoms; and the content of hydrogen atoms in the hydrogenated carbon layer is from 9 to 50 atomic %.
    • 为了提供具有宽的透射/反射带并且导电性(电磁波屏蔽性),可见光透射率,可见光抗反射性,近红外屏蔽性和耐湿性优异的导电性层叠体,以及电磁波屏蔽 使用这种层压体的等离子体显示器。 一种导电层压体20,其包括基板21和形成在基板21上的导电膜22,其中导电膜22具有交替层叠的具有高折射率层(23a至23e)和金属层(24a至24d)的多层结构 从基板侧依次以2n + 1层的总数(其中n为1〜12的整数),并且在与基板21最相似的位置处还具有氢化碳层25; 高折射率层(23a〜23e)的折射率为1.5〜2.7; 氢化碳层25含有碳原子和氢原子; 氢化碳层中氢原子的含量为9〜50原子%。
    • 7. 发明授权
    • Light collecting device and single-photon generation device
    • 光收集装置和单光子发生装置
    • US07844188B2
    • 2010-11-30
    • US11857765
    • 2007-09-19
    • Kazuya Takemoto
    • Kazuya Takemoto
    • H04B10/04H04B10/12
    • H04B10/70
    • A light collecting device is disclosed that is able to couple light from a light emission structure to an optical fiber at low loss. The light collecting device includes an excitation light source for emitting excitation light to an optical fiber; a light condensing optical system which condenses the excitation light from the optical fiber to a light emission structure, and directs light reflected in the light emission structure and light generated in the light emission structure back to the optical fiber; a reflecting light detector for detecting intensity of the reflected light; a first optical divider for dividing the emission light and the reflected light based on their wavelengths, directing the emission light to the optical fiber, and propagating the reflected light to the excitation light source; a second optical divider arranged close to the excitation light source for propagating the excitation light to the first optical divider, and propagating the reflected light to the reflecting light detector; a position controller for controlling a light condensing position of the excitation light to be irradiated to the light emission structure; a unit for scanning the light condensing position of the excitation light, and acquiring a relationship of intensity of the reflected light and the light condensing position of the excitation light; and a unit for optimizing the light condensing position based on the intensity of the reflected light and the light condensing position of the excitation light.
    • 公开了一种能够以低损耗将来自发光结构的光耦合到光纤的光收集装置。 光收集装置包括用于向光纤发射激发光的激发光源; 将来自光纤的激发光聚光到发光结构的聚光光学系统,将在发光结构中反射的光和在发光结构中产生的光反射回光纤; 反射光检测器,用于检测反射光的强度; 第一光学分配器,用于根据它们的波长划分发射光和反射光,将发射光引导到光纤,并将反射光传播到激发光源; 靠近激发光源设置的第二分光器,用于将激发光传播到第一分光器,并将反射光传播到反射光检测器; 位置控制器,用于控制要照射到发光结构的激发光的聚光位置; 用于扫描激发光的聚光位置并获取反射光的强度与激发光的聚光位置的关系的单元; 以及用于基于反射光的强度和激发光的聚光位置优化聚光位置的单元。