激光与光电子学进展, 2020, 57 (13): 130101, 网络出版: 2020-07-09
冰晶粒子对量子干涉雷达探测性能的影响 下载: 889次
Influences of Ice Crystal Particles on the Detection Performance of Quantum Interference Radar
图 & 表
图 1. 量子干涉雷达系统。(a)系统原理;(b) Mach-Zehnder干涉仪
Fig. 1. Quantum interference radar system. (a) Principles of system; (b) Mach-Zehnder interferometer
图 2. 冰晶粒子的吸收效率因子随有效尺度的变化
Fig. 2. Absorption efficiency factor of ice crystal particles changes with effective scale
图 3. 相位延迟造成的椭圆偏振。(a)基态R、T下的椭圆极化光;(b)椭圆角率为ω的偏振光
Fig. 3. Elliptical polarization caused by phase delay. (a) Elliptic polarized light detected by the R、T base; (b) polarized light with ellipticity angle ω
图 4. 冰晶粒子的有效尺度对量子误码率影响
Fig. 4. Effect of effective scale of ice crystal particles on quantum bit error rate
图 5. 不同类型冰晶粒子的非对称因子对量子误码率的影响
Fig. 5. Effect of asymmetric factors of different types of ice crystal particles on quantum bit error rate
图 6. 传输距离、冰晶粒子的有效尺度与光子能量的关系
Fig. 6. Relationship between transmission distance, effective scale of ice crystal particles and photon energy
图 7. 冰晶粒子的粒子浓度与量子雷达的分辨率的关系。(a) N=5;(b) N=10
Fig. 7. Relationship between particle concentration of ice crystal particles and resolution of quantum radar. (a) N=5; (b) N=10
聂敏, 张怡心, 杨光, 张美玲, 孙爱晶, 裴昌幸. 冰晶粒子对量子干涉雷达探测性能的影响[J]. 激光与光电子学进展, 2020, 57(13): 130101. Min Nie, Yixin Zhang, Guang Yang, Meiling Zhang, Aijing Sun, Changxing Pei. Influences of Ice Crystal Particles on the Detection Performance of Quantum Interference Radar[J]. Laser & Optoelectronics Progress, 2020, 57(13): 130101.