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FMM
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calc_emn_bin.m

calc_emn_bin.m 2.1 KB
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  1. %{
    2. 

  2. Copyright © 2020 Alexey A. Shcherbakov. All rights reserved.
    3. 

  3. 

  4. This file is part of GratingFMM.
    5. 

  5. 

  6. GratingFMM is free software: you can redistribute it and/or modify
    7. 

  7. it under the terms of the GNU General Public License as published by
    8. 

  8. the Free Software Foundation, either version 2 of the License, or
    9. 

  9. (at your option) any later version.
    10. 

  10. 

  11. GratingFMM is distributed in the hope that it will be useful,
    12. 

  12. but WITHOUT ANY WARRANTY; without even the implied warranty of
    13. 

  13. MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14. 

  14. GNU General Public License for more details.
    15. 

  15. 

  16. You should have received a copy of the GNU General Public License
    17. 

  17. along with GratingFMM. If not, see <https://www.gnu.org/licenses/>.
    18. 

  18. %}
    19. 

  19. %% description:
    20. 

  20. % Fourier matrix of the permittivity and the inverse permittivity of a
    21. 

  21. % 1D binary grating
    22. 

  22. %% input:
    23. 

  23. % no - number of Fourier harmonics
    24. 

  24. % alps: relative widths of the grating period elements (should meet the conditions
    25. 

  25. %   0 < alps(i) < 1 and sum(alps) == 1)
    26. 

  26. % poss: relative positions of the centers of the grating period elements
    27. 

  27. %   (should not overlap)
    28. 

  28. % eps: permittivities of the grating period elements
    29. 

  29. %% output:
    30. 

  30. % FE: Fourier matrix of size (2*no-1,2), which contains
    31. 

  31. % Fourier components of the permittivity (FE(:,1)) and the inverse
    32. 

  32. % permittivity (FE(:,2))
    33. 

  33. %% implementation
    34. 

  34. function [FE] = calc_emn_bin(no, alps, poss, eps)
    35. 

  35. 	if (length(alps) ~= length(poss)) || (length(alps) ~= length(eps)) || (abs(sum(alps)-1) > 1e-12)
    36. 

  36. 		error("calc_emn_bin input error");
    37. 

  37. 	end
    38. 

  38. 

  39. 	FE = zeros(2*no-1,2);
    40. 

  40. 	ind = transpose(linspace(1,no-1,no-1));
    41. 

  41. 

  42. 	for k = 1:length(alps)
    43. 

  43. 		ifun = sin(ind*pi*alps(k))./(ind*pi);
    44. 

  44. 		te = exp(-(2*pi*1i*poss(k))*ind);
    45. 

  45. 			% zero harmonics:
    46. 

  46. 		FE(no,1) = FE(no,1) + eps(k)*alps(k);
    47. 

  47. 		FE(no,2) = FE(no,2) + alps(k)/eps(k);
    48. 

  48. 			% non-zero harmonics:
    49. 

  49. 		tmp = eps(k)*ifun;
    50. 

  50. 		FE(no+1:2*no-1,1) = FE(no+1:2*no-1,1) + tmp.*te;
    51. 

  51. 		FE(no-1:-1:1,1) = FE(no-1:-1:1,1) + tmp.*conj(te);
    52. 

  52. 		tmp = (1/eps(k))*ifun;
    53. 

  53. 		FE(no+1:2*no-1,2) = FE(no+1:2*no-1,2) + tmp.*te;
    54. 

  54. 		FE(no-1:-1:1,2) = FE(no-1:-1:1,2) + tmp.*conj(te);
    55. 

  55. 	end
    56. 

  56. end
    57. 

  57. %
    58. 

  58. % end of calc_emn_bin
    59. 

  59. %
    60.