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Prof. David R. Jackson ECE Dept.

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ECE 6341. Spring 2014. Prof. David R. Jackson ECE Dept. Notes 46. Notes 42. 2D Frequency Selective Surface (FSS). z. y. b. L. W. a. x. Scattering from a 2-D array of metal patches (FSS structure). 2D FSS (cont.).

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Prof. David R. Jackson ECE Dept.

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  1. ECE 6341 Spring 2014 Prof. David R. Jackson ECE Dept. Notes 46 Notes 42

  2. 2D Frequency Selective Surface (FSS) z y b L W a x Scattering from a 2-D array of metal patches (FSS structure)

  3. 2D FSS (cont.) Note: The scattered field will have both Az and Fz, regardless of the polarization of the incident wave. TMz: TEz: Denote

  4. 2D FSS (cont.) Use a 2D Fourier series: Define:

  5. 2D FSS (cont.) Define 2DFloquet waves: where

  6. 2D FSS (cont.) z L x a z > 0: z < 0:

  7. 2D FSS (cont.) z L x M0 a Boundary condition (PEC patches): M0 = metal surface of (0,0) patch

  8. 2D FSS (cont.) y S0 b W x L a Orthogonality of Floquet waves: M0

  9. 2D FSS (cont.) OUTLINE OF SOLUTION STEPS (1) Expand current on (0,0) patch in terms of basis functions: (2) Express the unknown Floquet coefficients Amn, Bmn, Cmn, Dmn in terms of the unknown current coefficients cj, using the orthogonality of the Floquet waves over S0. • Enforce continuity of tangential electric field in S0. • Enforce jump condition on tangential magnetic field in S0.

  10. 2D FSS (cont.) OUTLINE OF SOLUTION STEPS (cont.) (3) Enforce EFIE on M0 • Use N testing functions. • This leads to an NN system of linear equations for the unknown current coefficients cj.

  11. Grating Waves To avoid grating waves: Set m = 1, in first equation, n = 1 in second equation:

  12. Grating Waves (cont.) Worst-case: This yields

  13. Skewed Lattice y s2 x s1 S0 Assume:

  14. Skewed Lattice (cont.) p1 s2 p2 s1 S0 Define perpendicular vectors:

  15. Skewed Lattice (cont.) Assume Enforce:

  16. Skewed Lattice (cont.) Hence we have Similarly, we have

  17. Skewed Lattice (cont.) Hence, we have

  18. Skewed Lattice (cont.) Simplify these results: A= area of unit cell Hence the result is

  19. Skewed Lattice (cont.) Similarly,

  20. Skewed Lattice (cont.) Recall that The wavenumbers for the periodic function are then

  21. Skewed Lattice (cont.) Rectangular lattice:

  22. Skewed Lattice (cont.) Rectangular lattice (cont.):

  23. Skewed Lattice (cont.) Orthogonality: (proof omitted)

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