强激光与粒子束, 2019, 31 (10): 103213, 网络出版: 2019-10-14
JEMS-FDTD软件在电磁脉冲区域传播数值模拟中的应用
Application of JEMS-FDTD in EMP regional propagation simulation
时域有限差分方法 电磁脉冲 区域传播 自适应网格 数值模拟 FDTD EMP regional propagation adaptive mesh refinement numerical simulation
摘要
电磁脉冲区域传播数值模拟是电磁环境效应分析的重要环节, 面临空间尺度巨大、多辐射源、复杂地貌等技术挑战。本文介绍了三维时域全波电磁模拟并行软件JEMS-FDTD的研制进展。在大规模并行计算FDTD方法的基础上结合自适应网格技术, 研制了一种适应于大区域电磁脉冲传播的高效时域全波计算方法。并基于该技术实现了千km2级城市电磁脉冲区域传播的数值模拟, 获取了全空间的时域电磁场信息, 验证了软件在电磁脉冲区域传播仿真应用中的可行性。
Abstract
Numerical simulation of electromagnetic pluses regional propagation is an important link in the analysis of electromagnetic environment effect, faced with technical challenges such as huge spatial scale, multiple radiation sources and complex geomorphology. This paper demonstrates a massively parallel 3D full-wave electromagnetic field simulation program software JEMS-FDTD and its development progress. Based on the large-scale parallel FDTD method and adaptive mesh refinement technology, an efficient full-wave time-domain computation method for large-area electromagnetic pulse propagation is developed. The numerical simulation of regional propagation of electromagnetic pulse in 1000 square kilometers city has been realized. This work verifies the feasibility of the software in the simulation of electromagnetic pluses regional propagation.
鲍献丰, 李瀚宇, 伍月千, 周海京. JEMS-FDTD软件在电磁脉冲区域传播数值模拟中的应用[J]. 强激光与粒子束, 2019, 31(10): 103213. Bao Xianfeng, Li Hanyu, Wu Yueqian, Zhou Haijing. Application of JEMS-FDTD in EMP regional propagation simulation[J]. High Power Laser and Particle Beams, 2019, 31(10): 103213.