Hou Zhi-Shan, Cao Jia-Ji, Yu Feng, Tian Zhen-Nan, Xiong Xiao, Li Mu-Tian, Ren Xi-Feng, Chen Qi-Dai, Sun Hong-Bo
Opt Lett. 2020 Apr 1;45(7):1862-1865. doi: 10.1364/OL.386861.
We propose UV-IR femtosecond laser hybrid lithography for the efficient printing of complex on-chip waveguides, which offers good performance in terms of processing efficiency and accuracy. With this three-dimensional printing technology, waveguides with complex cross-section shapes, such as owls and kittens, can be easily fabricated with an efficiency increased by 1500% (for ${6};\unicode{x00B5} {\rm m}; \times ;{6};\unicode{x00B5} {\rm m}$6µm×6µm). In addition, a circular cross-section waveguide with an extremely low birefringence and complex ${8} \times {8}$8×8 random walk networks were quickly customized, which implies that in the design and preparation of the large-scale optical chips, the proposed maskless method allows for the preparation of highly customized devices.
我们提出了紫外-红外飞秒激光混合光刻技术,用于高效打印复杂的片上波导,该技术在加工效率和精度方面具有良好的性能。利用这种三维打印技术,可以轻松制造出具有复杂横截面形状(如猫头鹰和小猫形状)的波导,效率提高了1500%(对于6µm×6µm)。此外,还快速定制了具有极低双折射的圆形横截面波导和复杂的8×8随机游走网络,这意味着在大规模光学芯片的设计和制备中,所提出的无掩模方法能够制备高度定制的器件。
