The symmetric energy-conserved splitting FDTD scheme developed in[1]is a very new and efficient scheme for computing theMaxwell’s equations.It is based on splitting the whole Maxwell’s equations and matching the x-d...The symmetric energy-conserved splitting FDTD scheme developed in[1]is a very new and efficient scheme for computing theMaxwell’s equations.It is based on splitting the whole Maxwell’s equations and matching the x-direction and y-direction electric fields associated to the magnetic field symmetrically.In this paper,we make further study on the scheme for the 2D Maxwell’s equations with the PEC boundary condition.Two new energy-conserved identities of the symmetric EC-S-FDTD scheme in the discrete H^(1)-norm are derived.It is then proved that the scheme is unconditionally stable in the discrete H^(1)-norm.By the new energy-conserved identities,the super-convergence of the symmetric EC-S-FDTD scheme is further proved that it is of second order convergence in both time and space steps in the discrete H^(1)-norm.Numerical experiments are carried out and confirm our theoretical results.展开更多
基金The work of L.Gao was supported by Shandong Provincial Natural Science Foundation(Y2008A19)Shandong Provincial Research Reward for Excellent Young Scientists(2007BS01020)and the Scientific Research Foundation for the Returned Chinese Scholars,State Education Ministry.The work of D.Liang was supported by Natural Sciences and Engineering Research Council of Canada.We are very grateful to the anonymous referees for their valuable suggestions which have helped to improve the paper.
文摘The symmetric energy-conserved splitting FDTD scheme developed in[1]is a very new and efficient scheme for computing theMaxwell’s equations.It is based on splitting the whole Maxwell’s equations and matching the x-direction and y-direction electric fields associated to the magnetic field symmetrically.In this paper,we make further study on the scheme for the 2D Maxwell’s equations with the PEC boundary condition.Two new energy-conserved identities of the symmetric EC-S-FDTD scheme in the discrete H^(1)-norm are derived.It is then proved that the scheme is unconditionally stable in the discrete H^(1)-norm.By the new energy-conserved identities,the super-convergence of the symmetric EC-S-FDTD scheme is further proved that it is of second order convergence in both time and space steps in the discrete H^(1)-norm.Numerical experiments are carried out and confirm our theoretical results.
