Balanced APD homodyne receiver for quantum applications

D. Milovančev, N. Vokić, F. Honz, Martin Achleitner, C. Pacher, B. Schrenk
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Abstract

Performance of linear avalanche photodiode-based balanced homodyne receiver (APD BHD) is examined and compared to reference BHD based on PIN photodiodes, in terms of common mode rejection ratio (CMRR), quantum-to-classical noise clearance (QCNR) and sensitivity in coherent reception of quadrature phase shift keying (QPSK) modulation format. NIST randomness validation was performed on sampled data for quantum random number generator (QRNG). Achieved CMRR values were 50 dB and 30 dB at 100 MHz and 1 GHz, respectively. QCNR of 20 dB at low input power of −20 dBm was demonstrated. Optical sensitivity of APD BHD coherent receiver compared to its PIN BHD counterpart can be improved by 3 dB at low local oscillator (LO) powers, whereas for high LO powers the sensitivity of APD BHD approaches the values for PIN BHD.
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用于量子应用的平衡APD零差接收机
从共模抑制比(CMRR)、量子对经典噪声清除率(QCNR)和正交相移键控(QPSK)调制格式的相干接收灵敏度等方面,研究了基于线性雪崩光电二极管的平衡同差接收机(APD BHD)的性能,并与基于PIN光电二极管的参考接收机(APD BHD)进行了比较。对量子随机数发生器(QRNG)的采样数据进行了NIST随机性验证。在100 MHz和1 GHz频段,实现的CMRR值分别为50 dB和30 dB。在−20 dBm的低输入功率下实现了20 dB的QCNR。在低本振(LO)功率下,APD BHD相干接收机的光学灵敏度比PIN BHD相干接收机提高了3 dB,而在高本振功率下,APD BHD的灵敏度接近PIN BHD的值。
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