物理学报2016,Vol.65Issue(10):100303-1-100303-8,8.DOI:10.7498/aps.65.100303
时域脉冲平衡零拍探测器的高精度自动平衡∗
Highprecision auto-balance of the time-domain pulsed homo dyne detector
摘要
Abstract
Quantum key distributions, which could make legitimate communication parties Alice and Bob achieve the same random key with unconditional security, will have broad applications in defense, commerce, and communication. The protocol of the continuous variable quantum key distribution (CVQKD) has many advantages, such as easy preparation of the light source, high detector effciency, and good compatibility with the classic fiber-optic communication systems. In recent years, great progress in the research of CVQKD has been made both theoretically and experimentally. In the protocol, the quadratures of the optical field with Gaussian or Non-Gaussian modulation are employed as the carriers of the key. <br> The quadratures of the pulsed optical quantum states in CVQKD can be detected with a time-domain pulsed homodyne detector. The performance of the detector has great influences on the excess noises and the safe key rate of the quantum communication system. The measurement accuracy, which depends crucially on the common mode rejection ratio and the long-term stability, is the key performance of the detector. In order to improve the accuracy of measurement and avoid saturating the detector, we propose and demonstrate a technique to balance the two output beams of a 50/50 fiber coupler of the homodyne detector automatically. The auto-balance technique, which improves the long-term stability and high common mode rejection ratio, is described in the following. <br> Firstly, the relation between the balance degree and the measurement accuracy is theoretically analyzed in detail. The result shows that a balance degree larger than 10−4 should be reached to ensure a high precision measurement when the intensity of the local oscillator pulse is 108 photons per pulse. Secondly, a fiber-based variable attenuator based on computer-controlled linear stepper motor is designed. The linear stepper motor that is used to drive the fiber coils has a small dimension of 20 cm × 20 cm × 28 cm and a minimum step size of 78 nm, and is controlled through the I/O port of a multifunction data acquisition card connected to a computer. The attenuations of the fiber coils of different radii are detected. The precision of attenuation is estimated to be on the order of 10−6 per 100 nm. <br> The principle of the feedback control is described. A method of changing step-size which depends on the balance degree is proposed to fulfill a fast auto-balance process. Using the auto-feedback-control system, a balance degree of about 1.56 × 10−6 can be achieved. The procedure of auto-balance takes about 1 s, and the evolution curves that represent the transformation process from various unbalanced states to the balanced state are presented. <br> The auto-balance apparatus can ensure that the time-domain pulsed homodyne detector run stably in a long-term with a high common mode rejection ratio. The nonlinear and saturation effects due to the drift of the balance point are eliminated. The presented auto-balance time-domain pulsed homodyne detector can be well integrated into the continuous variable quantum key distribution system, and is expected to play an important role in improving the measurement accuracy and reducing the excess noises of the system. We believe that it could also be found to have potential applications in other areas.关键词
连续变量量子密钥分发/时域平衡零拍探测器/自动平衡控制Key words
continuous variable quantum key distribution/time-domain homodyne detector/auto-balance control引用本文复制引用
刘建强,王旭阳,白增亮,李永民..时域脉冲平衡零拍探测器的高精度自动平衡∗[J].物理学报,2016,65(10):100303-1-100303-8,8.基金项目
国家自然科学基金(批准号:61378010,11504219)、山西省自然科学基金(批准号:2014011007-1)和山西省高等学校创新人才支持计划资助的课题 (批准号:61378010,11504219)
