Optical Frequency Comb Generation via Cascaded Intensity and Phase Photonic Crystal Modulators

Nanophotonics, driven by low processing power and high density integration, is appearing as the next logical step for microwave photonics. Optical frequency combs (OFCs), which play a vital role in integrated microwave photonics, have not yet generated using nano-structured devices. In this paper, we propose OFC generation based on all-optical modulation of nanophotonic structures. A theoretical model based on temporal coupled mode theory is developed to describe cascaded all-optical photonic crystal intensity and phase modulators. Using a modulation light with a sinusoidal waveform, a separate carrier light is modulated to generate an OFC. By manipulating the modulation power and device dimensions, a flat OFC that spans over a 600 GHz is delivered. The proposed system offers OFC generation with tunable comb line spacing using devices with high density integration capabilities.

Automated summary

This research proposes a method to generate optical frequency combs (OFC) based on all-optical modulation of nanophotonic structures, allowing for high density integration and tunable comb line spacing. By manipulating modulation power and device dimensions, a flat OFC spanning over 600 GHz can be produced.