Graphene-channel FETs for photonic frequency double-mixing conversion over the sub-THz band
We report on photonic frequency double-mixing conversion utilizing a graphene-channel FET (G-FET). Optoelectronic properties of graphene are exploited to perform single-chip photonic double-mixing functionality, which is greatly advantageous in future broadband technological conversion between optic...
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| Veröffentlicht in: | Solid-state electronics 2015-01, Vol.103, p.216-221 |
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| creator | Kawasaki, Tetsuya Sugawara, Kenta Dobroiu, Adrian Eto, Takanori Kurita, Yuki Kojima, Kazuki Yabe, Yuhei Sugiyama, Hiroki Watanabe, Takayuki Suemitsu, Tetsuya Ryzhii, Victor Iwatsuki, Katsumi Fukada, Youichi Kani, Jun-ichi Terada, Jun Yoshimoto, Naoto Kawahara, Kenji Ago, Hiroki Otsuji, Taiichi |
| description | We report on photonic frequency double-mixing conversion utilizing a graphene-channel FET (G-FET). Optoelectronic properties of graphene are exploited to perform single-chip photonic double-mixing functionality, which is greatly advantageous in future broadband technological conversion between optical fiber and sub-terahertz wireless communications. A 1GHz modulation signal on a 125GHz carrier is electrically input to the gate, whereas a 1.58μm dual wavelength CW laser beam having a frequency difference of 112.5GHz impinges on the G-FET. The G-FET works as a photomixer generating a 112.5GHz local signal which is then electrically mixed to the 1GHz modulated 125GHz carrier signal, resulting in the down-conversion of the 1GHz signal to a 12.5GHz intermediate frequency (IF) signal. |
| doi_str_mv | 10.1016/j.sse.2014.07.009 |
| format | Article |
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| subjects | Carriers Conversion FET Graphene Modulation Optical fibers Photomixing Photonics Photoresponse Terahertz Wavelengths Wireless communication |
| title | Graphene-channel FETs for photonic frequency double-mixing conversion over the sub-THz band |
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