Research experience:

Traditional and quantum radar scattering

Theoretical and experimental study of electromagnetic compatibility and environment 

Metamaterial

Speech title:  

The Simulation and Analysis of Quantum Radar Cross Section 

Abstract:

Quantum radar offers the prospect of detecting, identifying, and resolving RF stealth platforms and weapons systems, but the corresponding quantum radar cross section (QRCS) simulation is restricted-almost all existing methods can only be used for the two-dimensional (2-D) targets, not the 3-D targets even for convex targets. We propose a novel method that can deal with the calculation of the orthogonal projected area (A ⊥ ) of the target in each incidence, which is the key part of QRCS simulation for the arbitrary 3-D convex target. To the best of our knowledge, this has not been reported before. In this report, we introduce a three-step computation process of (A ⊥ ), and verified the method for typical 2-D targets. Finally, we show some results for typical 3-D convex targets and compared the QRCS with classical radar cross section (CRCS). Meanwhile, we analyze the superposition of quantum effect of side lobes which means a kind of novel quantum phenomena.