Time:2021-06-20 Read:1469
The topological valley photonic crystal has recently attracted extensive attention owing to its superior properties like possibility to produce edge state below the light line and showing ultra-low loss when passing 120° sharp bends. Now that broadband lossless valley waveguide is merely achieved based on Si valley photonic crystal with high refractive index. Thus achieving broadband valley photonic crystal waveguide based on materials with relatively low refractive is extremely necessary. For instance, valley photonic crystal based on BaTiO3 has already been used to construct adjustable optical switch and valley photonic crystal based on SiN has already used to construct waveguide coupler for single WSe2 monolayer.
We proposed the band property of valley photonic crystal based on lithium niobite. A chiral and lossless valley photonic crystal waveguide has been achieved which is robust to Z bend waveguide. In this case, the edge state is possible to locate below the light line only when the interface is arranged in bearded type, and top and bottom components show negative and positive valley Chern numbers. In this condition, edge state band actually includes two different sub-bands. While the edge state band in lower frequency cannot pass through 120° sharp bends, which is topologically trivial. As the radius is increasing, the corresponding bandwidth shows a peak of 0.0201(a/λ), and we also verify the robustness of proposed structure.
The results indicate that if we want a waveguide which is robust and can locks to certain chirality, the radius of holes cannot be too large. A trade-off is desired. The results can be extended to other materials that have low refractive index such as LiTaO3, BaTiO3, SiN, etc.
Fig. 1. Schematic of the “bearded” interface lithium niobate valley photonic crystal, and the corresponding group index diagram, projected band diagram, |Hz| field distribution and field distribution for straight and bend waveguide.
This research was published in "Rui Ge, Xiongshuo Yan, Yuping Chen, and Xianfeng Chen. Broadband and lossless lithium niobate valley photonic crystal waveguide, Chinese Optics Letters, 19(6), 6001 (2021)"
Link:http://www.researching.cn/EN/Article/OJ670b80a2437e23a2