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An ultra-sensitive balanced detector with low noise for continuous-variable quantum key distribution

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arxiv 1806.03394 v1 pith:2BHACQ5G submitted 2018-06-09 physics.ins-det quant-ph

An ultra-sensitive balanced detector with low noise for continuous-variable quantum key distribution

classification physics.ins-det quant-ph
keywords detectornoisedetectorsamplifierbalancedcommercialcommonelectronic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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A well-balanced detector with high sensitivity and low noise is presented in this paper. The two-stage amplification structure is used to increase electronic gain while keeping an effective bandwidth of about 70 MHz. In order to further reduce electronic noise, a junction field-effect transistor(JFET) is connected between photodiodes and transimpedance amplifier to reduce the impact of amplifier leakage current. Benefit from these designs, the root-mean-square(RMS) of noise voltage is about 6 mV with a gain of 3.2E5 V/W, and it means an ultra-low noise equivalent power density of 2.2E-12 W/rtHz, only half of common low-noise commercial detectors. In addition, two photodiodes in similar frequency response are selected for detector and make the common mode rejection ratio(CMRR) of detector reached 53 dB, about 13 dB higher than commercial detectors. Further tests indicate that 16.8 dB shot-noise to electronic-noise ratio is measured in our detector, which is better than most high speed balanced detectors.

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