Optical switching of 1-D microstrip photonic bandgap structures
The optical control of a microstrip one dimensional (1-D) photonic bandgap (PBG) structure has been demonstrated over the frequency range 7-13GHz. A microstrip PBG structure was fabricated on Duroid 6010 and a high resistivity photoconductive Si wafer was placed in contact with the ground plane. Wit...
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2002
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rr-article-95590732002-01-01T00:00:00Z Optical switching of 1-D microstrip photonic bandgap structures Darren Cadman (1250775) Robert E. Miles (2432878) Robert W. Kelsall (7205444) David Hayes (1972408) Mechanical engineering not elsewhere classified untagged Mechanical Engineering not elsewhere classified The optical control of a microstrip one dimensional (1-D) photonic bandgap (PBG) structure has been demonstrated over the frequency range 7-13GHz. A microstrip PBG structure was fabricated on Duroid 6010 and a high resistivity photoconductive Si wafer was placed in contact with the ground plane. With no optical illumination incident upon the Si, the microstrip PBG filtering properties are well-defi ned. When the Si is illuminated the ltering properties are suppressed. Under illumination the experimental results display an increase in S21 of 6.5dB and a reduction in S11 of more than 8dB at the centre frequency of 10GHz. Experimental results are presented alongside those simulated. 2002-01-01T00:00:00Z Text Conference contribution 2134/26446 https://figshare.com/articles/conference_contribution/Optical_switching_of_1-D_microstrip_photonic_bandgap_structures/9559073 CC BY-NC-ND 4.0 |
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Mechanical engineering not elsewhere classified untagged Mechanical Engineering not elsewhere classified |
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Mechanical engineering not elsewhere classified untagged Mechanical Engineering not elsewhere classified Darren Cadman Robert E. Miles Robert W. Kelsall David Hayes Optical switching of 1-D microstrip photonic bandgap structures |
| description |
The optical control of a microstrip one dimensional (1-D) photonic bandgap (PBG) structure has been demonstrated over the frequency range 7-13GHz. A microstrip PBG structure was fabricated on Duroid 6010 and a high resistivity photoconductive Si wafer was placed in contact with the ground plane. With no optical illumination incident upon the Si, the microstrip PBG filtering properties are well-defi ned. When the Si is illuminated the ltering properties are suppressed. Under illumination the experimental results display an increase in S21 of 6.5dB and a reduction in S11 of more than 8dB at the centre frequency of 10GHz. Experimental results are presented alongside those simulated. |
| format |
Default Conference proceeding |
| author |
Darren Cadman Robert E. Miles Robert W. Kelsall David Hayes |
| author_facet |
Darren Cadman Robert E. Miles Robert W. Kelsall David Hayes |
| author_sort |
Darren Cadman (1250775) |
| title |
Optical switching of 1-D microstrip photonic bandgap structures |
| title_short |
Optical switching of 1-D microstrip photonic bandgap structures |
| title_full |
Optical switching of 1-D microstrip photonic bandgap structures |
| title_fullStr |
Optical switching of 1-D microstrip photonic bandgap structures |
| title_full_unstemmed |
Optical switching of 1-D microstrip photonic bandgap structures |
| title_sort |
optical switching of 1-d microstrip photonic bandgap structures |
| publishDate |
2002 |
| url |
https://hdl.handle.net/2134/26446 |
| _version_ |
1798189196222922752 |