We have developed a system for quantum key distribution (QKD), based on standard telecommunication lasers, detectors, and optical fiber, that passively compensates for time-dependent variations of the fiber-optic path due to stress, temperature changes, or birefringence. This approach allows information encoded in phase shifts imposed on single-photon-level pulses to be accurately read out after transmission over many kilometers of uncontrolled fiber. Cooled InGaAs avalanche photodiodes, pulse-biased using a special noise canceling circuit, are used to detect single 1.31-/spl mu/m infrared photons with a high efficiency, low dark-count rate, and subnanosecond time resolution. A single optical fiber carries both the quantum information and precise 1.55 /spl mu/m timing pulses between the two end stations. Overall synchronization of end-station activities, public discussion of basis choices, error correction, and privacy amplification have all been implemented over a local area network (LAN). The system at present generates raw, error-corrected, and privacy-amplified key data at rates of /spl sim/1000, 600, and 200 bits/s, respectively, over a 10-km single-mode fiber link.
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机译:我们已经开发了基于标准电信激光器,检测器和光纤的量子密钥分发(QKD)系统,该系统可被动补偿由于应力,温度变化或双折射而导致的光纤路径随时间变化的情况。这种方法允许在数千米的不受控制的光纤上传输后,准确地读出以单光子级脉冲施加的相移编码的信息。冷却后的InGaAs雪崩光电二极管通过特殊的噪声消除电路进行脉冲偏置,可检测单个1.31 / splμm/ m的红外光子,具有高效率,低暗计数率和亚纳秒时间分辨率。一根光纤在两个终端站之间既传输量子信息又传输精确的1.55 / spl mu / m定时脉冲。终端站活动的总体同步,对基础选择的公共讨论,纠错和隐私放大都已通过局域网(LAN)实现。目前,该系统在10公里的单模光纤链路上分别以/ spl sim / 1000、600和200 bit / s的速率生成原始,经过纠错和保密性增强的密钥数据。
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