Abstract
This paper proposes a novel method to enhance the performance of the modulator for fifth-generation wireless communication (5G) by exploiting modulation instability (MI). We show that MI can reduce the modulator's bias voltage (
$V_\pi$
) by generating carrier side-band gain, and increase the modulation BandWidth (BW), resulting in higher channel capacity, without changing the modulator structure. In receive mode of the array antenna, where the signal is very weak, high-frequency amplification is a high demanding solution to mitigate coverage issue. We also present a developed microwave-photonic beamforming bit-controller system for receiver-transmitter phased array antennas (PAAs), which are essential for high-capacity wireless communications like 5G. We employ a modulated frequency comb, exploiting MI fiber to achieve an amplified true-time delay (TTD) system for wide-coverage PAA beamforming and show that it can steer wideband high-frequency signals to a specific direction angle, avoiding beam-squint.
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