Simulation results for a novel optically-controlled photonic bandgap structure for microstrip lines

A novel optically controlled one dimensional (1D) photonic bandgap (PBG) microstrip structure is proposed. This device consists of a 50 /spl Omega/ microstrip transmission line and a PBG ground plane both deposited onto a photoconductive substrate. With no optical illumination the structure exhibits...

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Bibliographic Details
Main Authors: Darren Cadman, David Hayes, Robert E. Miles, Robert W. Kelsall
Format: Default Conference proceeding
Published: 2000
Subjects:
Mechanical engineering not elsewhere classified
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Mechanical Engineering not elsewhere classified
Online Access:https://hdl.handle.net/2134/26439
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Summary:A novel optically controlled one dimensional (1D) photonic bandgap (PBG) microstrip structure is proposed. This device consists of a 50 /spl Omega/ microstrip transmission line and a PBG ground plane both deposited onto a photoconductive substrate. With no optical illumination the structure exhibits a well-defined stopband. When light is focused through the holes in the ground plane and onto the substrate, electron-hole pairs are generated to form a photoinduced plasma. This increases the conductivity of the exposed region of the substrate and forms a complete ground plane. The structure then acts as a conventional microstrip line and the bandstop characteristics are switched off. S-parameter simulation results are presented.

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