Future wireless communication system embraces physical-layer signal detection with high sensitivity,especially in the microwave photon level.Currently,the receiver primarily adopts the signal de-tection based on semi-conductor devices for signal de-tection,while this paper introduces high-sensitivity photon-level microwave detection based on supercon-ducting structure.We first overview existing works on the photon-level communication in the optical spec-trum as well as the microwave photon-level sensing based on superconducting structure in both theoretical and experimental perspectives,including microwave detection circuit model based on Josephson junction,microwave photon counter based on Josephson junc-tion,and two reconstruction approaches under back-ground noise.In addition,we characterize channel modeling based on two different microwave photon detection approaches,including the absorption barrier and the dual-path Handury Brown-Twiss(HBT)ex-periments,and predict the corresponding achievable rates.According to the performance prediction,it is seen that the microwave photon-level signal detection can increase the receiver sensitivity compared with the state-of-the-art standardized communication sys-tem with waveform signal reception,with gain over 10dB.

Junyu Zhang;Chen Gong;Shangbin Li;Rui Ni;Chengjie Zuo;Jinkang Zhu;Ming Zhao;Zhengyuan Xu

Key Laboratory of Wireless-Optical Communications,Chinese Academy of Sciences,School of Information Science and Technology,University of Science and Technology of China,Hefei 230026,China;Huawei Technology,Shenzhen 518129,China

中国通信（英文版）

[1]Junyu Zhang;Chen Gong;Shangbin Li;Rui Ni;Chengjie Zuo;Jinkang Zhu;Ming Zhao;Zhengyuan Xu-.Wireless Communication Based on Microwave Photon-Level Detection with Superconducting Devices:Achievable Rate Prediction)[J].中国通信（英文版）,2022(12):27-40

Achievable,Handury

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