Technical Program

325: FDTD: Advanced Algorithms and Modeling Techniques

Session Type: Oral
Time: Wednesday, July 10, 13:10 - 17:00
Location: Narcissus/Orange
Session Chairs: Costas Sarris, University of Toronto and Jeffrey Young, University of Idaho
 
325.1: A TIME DOMAIN ALGORITHM FOR SPINWAVE RESONANCE IN MAGNETIC MEDIA
         Tsz Kim Lai; University of North Carolina at Charlotte, United States
         Ryan Adams; University of North Carolina at Charlotte, United States
 
325.2: FAST ESTIMATE OF THERMAL RESPONSES OF BIOLOGICAL BODIES DUE TO RF EXPOSURE
         Yong Wang; Remcom Inc., United States
         H. Scott Langdon; Remcom Inc., United States
         Greg Skidmore; Remcom Inc., United States
         Ronald Eichenlaub; Remcom Inc., United States
         Jonathan Fletcher; Remcom Inc., United States
 
325.3: UNCONDITIONALLY STABLE LOCALLY TRIDIAGONAL ITERATIVE FDTD FOR HIGH LOSS APPLICATIONS
         Tengmeng Tan; Duke University, United States
         Qing Huo Liu; Duke University, United States
 
325.4: A SURFACE IMPEDANCE BOUNDARY CONDITION APPROACH TO THE FDTD MODELING OF GRAPHENE
         Jason C.C. Mak; University of Toronto, Canada
         Costas D. Sarris; University of Toronto, Canada
 
325.5: FDTD ON A LEBEDEV GRID FOR IMPROVED MATERIAL MODELLING
         Marcel Nauta; University of Calgary, Canada
         Mike Potter; University of Calgary, Canada
         Michal Okoniewski; University of Calgary, Canada
 
325.6: EFFECTIVE MODELING OF GRAPHENE AS A CONDUCTING SHEET IN THE FINITE-DIFFERENCE TIME-DOMAIN METHOD
         Vahid Nayyeri; University of Waterloo, Canada
         Mohammad Soleimani; Iran University of Science and Technology, Iran
         Omar Ramahi; University of Waterloo, Canada
 
325.7: AN EFFICIENT PRECONDITIONING SCHEME FOR EIGENANALYSIS OF INHOMOGENEOUSLY LOADED RECTANGULAR CAVITIES
         Qi Dai; The University of Hong Kong, Hong Kong SAR of China
         Yat Hei Lo; The University of Hong Kong, Hong Kong SAR of China
         Weng Cho Chew; University of Illinois at Urbana-Champaign, United States
         Li Jun Jiang; The University of Hong Kong, Hong Kong SAR of China
 
325.8: A COMPACT FOURTH-ORDER UNCONDITIONALLY-STABLE FOUR-STAGES SPLIT-STEP FDTD METHOD
         Yong-Dan Kong; South China University of Technology, China
         Qing-Xin Chu; South China University of Technology, China
         Rong-Lin Li; South China University of Technology, China
 
325.9: AN EFFICIENT FDTD ALGORITHM FOR SOLVING ELECTROMAGNETIC PROBLEMS BASED ON GPU AND COW ACCELERATION
         Bo Zhang; Southwest China Research Institute of Electronic Equipment, China
         Zhenghui Xue; Beijing Institute of Technology, China
         Wu Ren; Beijing Institute of Technology, China
         Weiming Li; Beijing Institute of Technology, China