We newly propose and experimentally investigate an InGaAs-channel high-electron-mobility transistor integrated with a unitraveling-carrier photodiode (UTC-PD) structure on its source side for an efficient optical-to-wireless carrier frequency downconversion utilizing its… Click to show full abstract
We newly propose and experimentally investigate an InGaAs-channel high-electron-mobility transistor integrated with a unitraveling-carrier photodiode (UTC-PD) structure on its source side for an efficient optical-to-wireless carrier frequency downconversion utilizing its photonic double-mixing functionality. It is demonstrated that the double-mixing conversion gain is significantly enhanced by 20 dB compared with a standard HEMT, owing to the integration of the UTC-PD structure. The device operation principle expected from the device structure is confirmed through measured DC characteristics and photomixing/double-mixing characteristics in the millimeter-wave region. The feasibility of the device for practical use in future optical-wireless convergence networks is addressed.
               
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