论文信息 - FDTD Modeling of Chiral Media by Using the Mobius Transformation Technique

FDTD Modeling of Chiral Media by Using the Mobius Transformation Technique

This letter introduces a new technique for finite-difference time-domain (FDTD) modeling of electromagnetic wave propagation in frequency-dispersive chiral media. First, Maxwell's curl equations are discretized according to Yee's scheme. Then the constitutive relations, expressed in the Laplace domain, are discretized using the Mobius transformation technique and appropriate digital-processing methodologies. The resulting formulation is explicit and preserves the second-order accuracy of the conventional FDTD technique. To show the validity of the method, the reflection and transmission coefficients of a chiral slab are computed and compared to the exact results, with good agreement being obtained

[1] Ismo V. Lindell,et al. Electromagnetic Waves in Chiral and Bi-Isotropic Media , 1994 .

[2] V. Demir,et al. FDTD formulation for dispersive chiral media using the Z transform method , 2005, IEEE Transactions on Antennas and Propagation.

[3] D. Werner,et al. A novel dispersive FDTD formulation for modeling transient propagation in chiral metamaterials , 2004, IEEE Transactions on Antennas and Propagation.

[4] A. Grande,et al. FDTD modeling of transient microwave signals in dispersive and lossy bi-isotropic media , 2003, IEEE MTT-S International Microwave Symposium Digest, 2003.

[5] Douglas H. Werner,et al. BI-FDTD: A new technique for modeling electromagnetic wave interaction with bi-isotropic media , 2000 .

[6] A. Grande,et al. Two-dimensional extension of a novel FDTD technique for modeling dispersive lossy bi-isotropic media using the auxiliary differential equation method , 2005, IEEE Microwave and Wireless Components Letters.

[7] José A. Pereda,et al. FDTD modeling of wave propagation in dispersive media by using the Mobius transformation technique , 2002 .