Summary
International Symposium on Antennas and Propagation
2015
Session Number:S3.3
Session:
Number:S3.3.7
Metamaterial Antenna Integrated to LiNbO3 Optical Modulator for Millimeter-Wave-Photonic Links
Y.N. Wijayanto, A. Kanno, A.A. Fathnan, P. Daud, T. Kawanishi, D. Mahmudin, N. Yamamoto,
pp.-
Publication Date:2015/11/9
Online ISSN:2188-5079
DOI:10.34385/proc.37.S3.3.7
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Summary:
We report current research progress on a metamaterial antenna integrated to an optical modulator for millimeter-wave-photonic links. The metamaterial antenna is composed by an array of electric-LC resonators on a LiNbO3 optical crystal. Large millimeter-wave electric field is induced across the capacitive gaps of the resonators due to free-space millimeter-wave irradiation. Optical modulation through Pockels effects can be obtained when light propagates along the capacitive gaps. The integrated device is operated effectively by considering interaction between millimeter-wave and lightwave electric fields along the capacitive gaps. Basic operations of the integrated device for 90GHz millimeter-wave bands are reported and discussed. Optical sidebands with carrier-to-sideband ratio of about -60dB by millimeter-wave irradiation power of ~20mW can be experimentally measured using optical spectrum analyzer.