rel="nofollow" href="#fb3_img_img_548a0878-20c4-5fd6-8849-55ae6e5b50ba.jpg" alt="images"/>obtained w...Figure 5.9.5. Top: total field (solid line), GO field component (circles) and UT...Figure 5.10.1. Top: total field (solid line), GO field component (circles), UTD ...Figure 5.11.1. Top: the exact GTD diffraction coefficient dB. Bottom: relative e...Figure 5.12.1. GTD co-polar diffraction coefficient in dB versus the azimuthal o...Figure 5.12.2.The relative error on the evaluation of GTD diffraction coefficien...Figure 5.13.1. Co-polar component Ez of total far field at kρ = 10 for the test ...Figure 5.13.2. Cross-polar component ΖoHz of total far field at kρ = 10 for the ...Figure 5.14.1. Impendence concave wedge with multiple reflections. For a color v...Figure 5.14.2. Co-polar Hz (left) and cross-polar Ez/Zo (right) far-field compon...Figure 5.14.3. Co-polar (Ez) and cross-polar (Zo Hz) GTD diffraction coefficient...
3 Chapter 6Figure 6.1.1. Dielectric wedge problem: 2π – 2Φ is the aperture angle of the wed...Figure 6.9.1. GO field, UTD component and the total far-field pattern at kρ = 10...Figure 6.9.2. a, b) Imaginary parts
in the regularity segment –Φ ≤ w ≤ 0 that ...Figure 6.9.3. a, b) Imaginary parts
in the regularity segment –Φ1 ≤ w1 ≤ 0 tha...Figure 6.9.4. a, d) Absolute value of the spectral unknowns
and
in (–2π,0) a...Figure 6.9.5. a) Absolute value of the total GTD diffraction coefficient (dB), b...Figure 6.9.6. Left: total field (solid line), GO field component (squares), UTD ...Figure 6.9.7. w = Φ + g1(w1 + Φ1) mapping used for the analytical continuation o...