| Editorial Preface |
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vii | (2) |
| Scope of the book and acknowledgements |
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ix | |
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1 Introduction to Frequency Selective Surfaces |
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1 | (14) |
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1 | (1) |
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1.2 Elementary Principles and Applications |
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2 | (7) |
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1.3 Organisation of the Book |
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9 | (2) |
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11 | (4) |
| PART I |
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15 | (170) |
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16 | (2) |
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2 Single Layer and Planar FSSs of Infinite Extent |
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18 | (59) |
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18 | (1) |
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19 | (10) |
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21 | (3) |
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2.2.2 Vector Field Modes for Arbitrary Lattice |
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24 | (5) |
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2.3 The Fields Near the Surface |
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29 | (12) |
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2.3.1 Electric Field Integral Equation: Conducting Elements |
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33 | (5) |
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2.3.2 Magnetic Field Integral Equation: Aperture Elements |
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38 | (3) |
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2.4 The Method of Moments Solution |
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41 | (3) |
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2.5 Transmission and Reflection Coefficients |
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44 | (4) |
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2.6 Results from Representative Arrays |
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48 | (25) |
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49 | (6) |
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55 | (3) |
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2.6.3 Current and Floquet Modes |
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58 | (1) |
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2.6.4 Transmission Coefficient |
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59 | (4) |
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63 | (1) |
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2.6.6 Basis Functions and their Floquet Transform |
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63 | (3) |
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2.6.7 Modes and Transmission Performance |
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66 | (7) |
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73 | (1) |
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74 | (3) |
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77 | (39) |
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77 | (1) |
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78 | (16) |
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3.2.1 Electric Field Integral Equation |
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80 | (1) |
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3.2.2 The Iterative Approach |
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81 | (3) |
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3.2.3 The Spectral Domain |
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84 | (2) |
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86 | (2) |
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3.2.5 Discrete Form of the Operator Equation |
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88 | (3) |
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91 | (3) |
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94 | (1) |
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95 | (10) |
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3.4.1 Transmission Coefficient |
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96 | (4) |
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100 | (5) |
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3.5 Surface Current and Field Distribution |
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105 | (3) |
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108 | (3) |
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111 | (1) |
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112 | (2) |
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114 | (2) |
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4 Multilayer and Planar FSSs of Infinite Extent |
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116 | (42) |
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116 | (3) |
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119 | (2) |
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121 | (3) |
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124 | (2) |
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4.5 Effect of Separation Distance on the Transmission Response |
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126 | (7) |
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4.6 Multilayer Array with Dielectric Support |
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133 | (3) |
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4.7 Minimisation Procedure |
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136 | (7) |
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141 | (2) |
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143 | (9) |
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4.8.1 Transmission Coefficient and Convergence |
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144 | (4) |
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4.8.2 Current Distribution |
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148 | (4) |
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152 | (1) |
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152 | (3) |
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155 | (3) |
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158 | (27) |
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158 | (2) |
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5.2 Analysis of Curved FSSs |
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160 | (8) |
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5.2.1 Geometry and Analytical Considerations |
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160 | (3) |
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163 | (3) |
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166 | (1) |
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5.2.4 Radiation Integral Calculation |
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167 | (1) |
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5.3 FSSs as Subreflectors |
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168 | (2) |
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170 | (11) |
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172 | (2) |
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174 | (7) |
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181 | (1) |
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181 | (4) |
| PART II |
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185 | (92) |
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186 | (3) |
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6 Modal Transmission Line Approach for FSS Analysis (R Orta, R Tascone) |
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189 | (32) |
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189 | (2) |
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6.2 Vector Transmission Lines |
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191 | (5) |
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6.3 Characterisation of Stratified Dielectric Media |
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196 | (5) |
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6.4 Formulation of the Scattering Problem |
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201 | (18) |
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211 | (2) |
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213 | (6) |
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219 | (1) |
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220 | (1) |
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7 Planar Periodic Structures (R Orta, R Tascone) |
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221 | (56) |
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221 | (2) |
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7.2 Discretisation of the Field Spectra |
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223 | (3) |
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7.3 Representation of the Unknowns |
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226 | (7) |
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7.4 Matrix Formulation for the Patch Approach |
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233 | (3) |
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7.5 Matrix Formulation for the Aperture Approach |
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236 | (2) |
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7.6 FSS Modal Equivalent Circuit |
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238 | (6) |
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244 | (4) |
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248 | (8) |
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7.9 Application of the Babinet's Principle |
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256 | (5) |
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7.10 Design Considerations |
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261 | (11) |
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272 | (2) |
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274 | (3) |
| Epilogue |
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277 | (4) |
| Index |
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281 | |
