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    • 6. 发明申请
    • Communication system and timing control method
    • 通讯系统及时序控制方法
    • US20070110454A1
    • 2007-05-17
    • US11471876
    • 2006-06-21
    • Wakako MaedaAkio TajimaAkihiro TanakaSeigo Takahashi
    • Wakako MaedaAkio TajimaAkihiro TanakaSeigo Takahashi
    • H04B10/04
    • H04L9/0852H04B10/548
    • A communication system and a timing control method are proposed that optimize timing in a sender and thereby enable information to be stably transmitted at the right timing. Under instructions from a timing controller in a receiver, the timing of driving a phase modulator in a sender is shifted by one step after another, and the then amount of clock shift and result of interference are monitored at the receiver and stored in a memory. The optimum timing is determined based on the stored data. Thus, a clock for driving the phase modulator in the sender can be set at the right timing. This is equivalent to compensating for group velocity dispersion due to wavelength dispersion that occurs when an optical signal channel and a clock signal channel are transmitted by wavelength division multiplexing transmission.
    • 提出一种通信系统和定时控制方法,其优化发送方的定时,从而使信息能够在正确的时机稳定地发送。 在来自接收机中的定时控制器的指令下,将发送器中的相位调制器驱动的定时一个接一个地移位,然后在接收器处监视时钟偏移量和干扰结果,并将其存储在存储器中。 基于所存储的数据确定最佳定时。 因此,可以在正确的时机设置用于驱动发送器中的相位调制器的时钟。 这相当于补偿当通过波分复用传输发送光信号通道和时钟信号通道时发生的由于波长色散引起的群速度色散。
    • 9. 发明授权
    • Communication system and communication method using the same
    • 通信系统和通信方法使用相同
    • US07974540B2
    • 2011-07-05
    • US10581037
    • 2004-11-29
    • Akihisa TomitaKazuo NakamuraAkio TajimaAkihiro TanakaYoshihiro NanbuShuuji SuzukiTakeshi TakeuchiWakako MaedaSeigo Takahashi
    • Akihisa TomitaKazuo NakamuraAkio TajimaAkihiro TanakaYoshihiro NanbuShuuji SuzukiTakeshi TakeuchiWakako MaedaSeigo Takahashi
    • H04J14/06H04L9/00G02F1/01G02B5/30
    • H04L9/0858
    • A communication system capable of employing polarization-dependent phase modulators with a reversing configuration that preserves security against disturbance of a polarization state at a transmission path but without using Faraday mirrors and a communication method using the same are provided.A quantum cryptography system of the present invention includes a first station 1, a transmission path 2, and a second station 3. The first station 1 has means for emitting time-divided optical pulses into the transmission path 2 and measuring a phase difference between the optical pulses returning from the transmission path 2. The transmission path 2 is a medium of light. The second station 3 has means for reversing traveling directions of the optical pulses, means for producing a phase difference, corresponding to a random number bit value to be transmitted, between the time-divided optical pulses, means for splitting the entering optical pulse into orthogonally polarized components and producing a 180-degree phase difference therebetween, means for rotating each polarization direction by 90 degrees, means for eliminating a component resulting from a deviation from the polarization rotation angle of 90 degrees, and means for attenuating optical pulse intensity to include no more than 1 photon per bit.
    • 一种能够采用具有反转配置的偏振相关相位调制器的通信系统,其提供了防止在传输路径上的偏振状态的干扰的安全性,但是不使用法拉第镜和使用其的通信方法。 本发明的量子密码系统包括第一站1,传输路径2和第二站3.第一站1具有将时分光脉冲发射到传输路径2中的装置, 从传输路径2返回的光脉冲。传输路径2是光的介质。 第二站3具有用于反转光脉冲的行进方向的装置,用于在分时光脉冲之间产生与要发送的随机数位值相对应的相位差的装置,用于将进入的光脉冲分成正交的装置 偏振分量,并产生180度的相位差,使每个偏振方向旋转90度的装置,用于消除由偏振旋转角度90度偏差产生的分量的装置,以及用于衰减光脉冲强度的装置, 每位多于1个光子。