Lamee Kieran F, Carlson David R, Newman Zachary L, Yu Su-Peng, Papp Scott B
Opt Lett. 2020 Aug 1;45(15):4192-4195. doi: 10.1364/OL.396950.
We experimentally demonstrate efficient and broadband supercontinuum generation in nonlinear tantala () waveguides using a 1560 nm femtosecond seed laser. With incident pulse energies as low as 100 pJ, we create spectra spanning up to 1.6 octaves across the visible and infrared. Fabricated devices feature propagation losses as low as 10 dB/m, and they can be dispersion engineered through lithographic patterning for specific applications. We show a waveguide design suitable for low-power self-referencing of a fiber frequency comb that produces dispersive-wave radiation directly at the second-harmonic wavelength of the seed laser. A fiber-connectorized, hermetically sealed module with 2 dB per facet insertion loss and watt-level average-power handling is also described. Highly efficient and fully packaged tantala waveguides may open new possibilities for the integration of nonlinear nanophotonics into systems for precision timing, quantum science, biological imaging, and remote sensing.
我们通过实验证明,使用1560纳米飞秒种子激光,在非线性钽酸()波导中可高效产生宽带超连续谱。在入射脉冲能量低至100皮焦的情况下,我们生成了跨越可见光和红外波段、跨度高达1.6倍频程的光谱。制造的器件具有低至10分贝/米的传播损耗,并且可以通过光刻图案化进行色散工程设计以用于特定应用。我们展示了一种适用于光纤频率梳低功率自参考的波导设计,该设计可直接在种子激光的二次谐波波长处产生色散波辐射。还描述了一种光纤连接器化、气密密封的模块,其每面插入损耗为2分贝,可处理瓦级平均功率。高效且完全封装的钽酸波导可能为将非线性纳米光子学集成到精密计时、量子科学、生物成像和遥感系统中开辟新的可能性。
