f = 10 GHz microstrip resonator

f = 10 GHz microstrip resonator g = 40 μm Reflection (f = 9.68 GHz) w = 480 μm Lf = 7.5 mm L = 4.8 mm transmission reflection Transmission (f = 9.50 GHz) A/m refl trans

f = 10 GHz microstrip transmission resonator g2 > g g = 40 μm w = 480 μm Lf = 7.5 mm L = 4.8 mm transmission reflection Gap to use should be 250 μm

f = 10 GHz microstrip transmission resonator g2 = 250 um g = 40 μm w = 480 μm Lf = 7.5 mm L = 4.8 mm transmission reflection

f = 10 GHz microstrip polarizer P2 w = 480 μm g = 40 μm gt = 250 μm P1 P3 Lf = 7.5 mm L = 4.8 mm transmission reflection REFLECTION PARAMETERS RESULTS SIMULATION See animation videos on microstrip polarizer folder

f = 10 GHz microstrip polarizer P2 w = 480 μm g = 40 μm gt = 250 μm P1 P3 Lf = 7.5 mm L = 4.8 mm transmission reflection TRANSMISSION PARAMETERS RESULTS SIMULATION

f = 15 GHz microstrip resonator g = 140 μm Reflection (f = 14.74 GHz) w = 500 μm Lf = 8.45 mm L = 3 mm transmission reflection Transmission (f = 14.60 GHz) A/m refl Transm. symmetric

f = 15 GHz microstrip transmission resonator g2 > g g = 40 μm w = 500 μm Lf = 8.45 mm L = 3 mm transmission reflection Gap to use should be 400 μm 1 Reflection resonator 1 2 2 3 Asymmetric transmission resonator 3 Symmetric transmission resonator

f = 15 GHz microstrip transmission resonator g2 = 400 um g = 40 μm w = 500 μm Lf = 8.45 mm L = 3 mm transmission reflection

Lf = 8.45 mm g = 140 μm g2 = 500 μm Lf = 8.45 mm L = 3 mm f = 15 GHz microstrip polarizer

f = 20 GHz microstrip resonator g = 330 μm Reflection (f = 20.32 GHz) w = 520 μm Lf = 8.67 mm L = 2 mm transmission reflection Transmission (f = 20.25 GHz) A/m refl trans

f = 15 GHz microstrip transmission resonator g2 > g g = 330 μm w = 520 μm Lf = 8.67 mm L = 2 mm transmission reflection Gap to use should be 650 μm

f = 10 GHz microstrip resonator