基于光子计数的纠缠微波压缩角锁定

Squeezing angle locking of entangled microwave based on photon counting

针对基于超导180°混合环的纠缠微波制备方案探测效率低、信息处理难以及控制复杂等问题,设计了基于微波光子计数的压缩角锁定方案.对超导180°混合环的输出信号进行微波光子计数,通过贝叶斯准则估计输入压缩态微波场的相对压缩角,并将压缩角校正信息反馈于约瑟夫森参量放大器抽运源,调整两路单模压缩态微波场的相对压缩角为180°,达到控制输出纠缠性能最优的目的.该研究为路径纠缠微波的纠缠性能的提升以及高质量纠缠微波源的设计提供了理论参考.

Quantum entanglement possesses important applications in quantum computation,quantum communication,and quantum precision measurement.It is also an important method to improve the performance of quantum radar and quantum radio navigation.However,the penetration of light wave is poor due to the high frequency,which leads to detecting limitations in bad weather.In this context,quantum entanglement in the microwave domain has been extensively studied,and it is hopeful to overcome the abovementioned defects in quantum optics.Although the entangled microwave preparation of continuous variable is achievable at present,there exist still some problems such as poor entanglement performance,low entanglement efficiency,complex signal processing and control,which restrict the development of entangled microwave sources.In order to improve the entanglement performance in microwave domain,a squeezing-angle locking scheme based on single photon counting is proposed.First,two Josephson parametric amplifiers(JPAs)are driven respectively by two pump signals to generate two single-mode squeezed states which are uncorrelated to each other.Next,the squeezing angle difference between the two single-mode squeezed states is adjusted to180°,and then the two signals are mixed in a superconducting 180°hybrid ring coupler for two entangled microwave outputs.The outputs are single photon detected,and the results are sent to the data processor for solution.The squeezing angle difference between the input single-mode squeezed microwaves is estimated by Bayesian criterion and compared with the target value to calculate the error.Finally,the squeezing angle correction information is fed back into the JPA pump to control the squeezing angle of the single-mode squeezed microwave of the JPA output as well as the relative squeezing angle to reach the target value.Thus,the dual-path entangled microwave with the optimal entanglement performance is output.Comparing with the existing entangled microwave preparation schemes,a single photon counter is utilized in the scheme of this paper,which leads to a detection efficiency of 90%.In addition,the Bayesian criterion is used to estimate the output result,and the theoretical precision reaches the quantum Cramer-Rao lower bound.Meanwhile,the introduced noise level and operation difficulty are reduced,which greatly improves the property of dual-path entangled microwave preparation.