Abstract
A photonic-assisted microwave signal generator based on a silicon microring modulator is demonstrated. The microring cavity incorporates an embedded PN junction that enables a microwave signal to modulate the lightwave circling inside. The DC component of the modulated light is trapped in the cavity, while the high-order sideband components are able to exit the cavity and then generate microwave signals at new frequencies in a photodetector. In our proof-of-concept experiment, a 10GHz microwave signal is converted to a 20GHz signal in the optical domain with an electrical harmonic suppression ratio of 22dB. An analytic model is also established to explain the operation mechanism, which agrees well with the measured data.
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