![]() ![]() Urick, V.J., Williams, K.J., McKinney, J.D.: Fundamentals of Microwave Photonics. Ridgway, R.W., Dohrman, C.L., Conway, J.A.: Microwave photonics programs at DARPA. Seeds, A.J., Williams, K.J.: Microwave photonics. Seeds, A., Lee, C.H., Funk, E., Nagamura, M.: Guest editorial: microwave photonics. ![]() The THz frequency components generated by the proposed photonic system can act as carriers for communication between the indoor user and the base station of a pico/femto cell in a 5G environment. In this case, a single THz carrier with a FWHM of 0.2618 THz is obtained. In the second approach, the output of the microring resonator is given to an optical filter to extract a particular frequency component. These series of pulses obtained are then investigated in two approaches in the first approach, the output of the microring resonator is given to a photodetector which generates 33 THz pulses separated by a spacing of 1 THz with a full width at half maximum (FWHM) of 0.15 THz. The transfer characteristics of the microring resonator generate Lorentzian shaped pulses at the output ports of the microring resonator. A mode-locked laser acts as an input source to the microring resonator. We propose a photonic system based on add–drop microring resonator and mode-locked laser for terahertz (THz) signal generation. ![]()
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