Parallel Computing Graphene Frequency Selective Surface(GFSS)with Large Finite Array Using HIEFDTD Method on High Performance Computer
Parallel computing of graphene frequency selective surface(GFSS)with large finite array is performed using hybrid implcit-explcit finite-difference time domain(HIEFDTD)method.Such GFSS consists of N*N units,where N is an arbitrary integral number.For example,even as N is small as 50,the FDTD cells generated for computing can be still as high as 3.5 billions.With the help of high performance computer(HPC),our computed GFSS with large finite array can achieve two passband operating at Terahertz bands.On the other hand,thanks to the unique feature of graphene,the central frequency of each passband can be adjusted by changing the graphene chemical potential or applied electrical or magnetic field,as demonstrated numerically.
Parallel computing graphene frequency selective surface (GFSS) large finite array hybrid implcit-explcit finitedifference time domain(HIE-FDTD) terahertz Band chemical potential
Tie-Lun Hu Wen-Yan Yin Ya-Zhou Chen Xian-Feng Bao Z.G.Zhao
Innovative Institute of EIEI Zhejiang University Hangzhou,China National Key Lab of Science and Technology on Strong EM Environment Simulation and Protection,Shi Ji CAEP Software Center of High Performance Numerical Simulations Beijing,China
国际会议
杭州
英文
1-4
2018-12-03(万方平台首次上网日期,不代表论文的发表时间)