K. Sugawara, T. Kawasaki, Mastura Binti Hussin, G. Tamamushi, M. Suemitsu, H. Fukidome, K. Iwatsuki, T. Suemitsu, V. Ryzhii, T. Otsuji, J. Kani, J. Terada, S. Kuwano
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Photonic frequency conversion using graphene FETs for future fully coherent access network
We report on the possibilities of graphene channel FET (G-FET) as a photonic frequency double-mixing conversion device for future fully coherent access network systems. A 112.5-GHz RF signal whose amplitude was coded with a 5-GHz rectangular signal was input to the gate, concurrently a 1.58-μm wavelength photomixed dual CW laser beam having a beat frequency of 87.5 GHz was incident to the FET, generating the local (LO) signal. The RF and LO signals were mixed to reproduce the down-converted 5-GHz signal onto the 25-GHz intermediate frequency (IF) signal successfully.
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