Che Yun Lin

TL;DR: In this article, a silicon/organic hybrid modulator integrating photonic crystal (PC) waveguide, 75 nm slot, and electro-optic (EO) polymer is experimentally demonstrated.

TL;DR: In this article, a group index taper was proposed to match the group velocity between a strip waveguide and a photonic crystal waveguide, and the measurement results showed a 20 dB enhancement in coupling efficiency with 5 dB less Fabry-Perot fluctuations.

TL;DR: A method to create large-scale chip-integrated photonic crystal sensor microarrays by combining the optical power splitting characteristics of multi-mode interference (MMI) power splitters and transmission drop resonance characteristics of multiple photonic Crystal microcavities arrayed along the length of the same Photonic crystal waveguide is experimentally demonstrated.

TL;DR: A dispersion engineered slow light silicon-based photonic crystal waveguide PIN modulator is presented and a large signal operation with a record low maximum V(π )× L of 0.0464 V · mm over the low-dispersion optical spectral range is demonstrated.

TL;DR: In this article, the authors demonstrate a four-channel on-chip true-time-delay module based on a photonic crystal waveguide array, which can operate up to a group index of n ≥ 3.23 without significant loss.