Woods Jonathan R C, Daykin Jake, Tong Amy S K, Lacava Cosimo, Petropoulos Periklis, Tropper Anne C, Horak Peter, Wilkinson James S, Apostolopoulos Vasilis
Opt Express. 2020 Oct 12;28(21):32173-32184. doi: 10.1364/OE.403089.
We characterize the spectral broadening performance in silica clad and unclad Tantalum pentoxide (TaO) waveguides as a function of the input pulse central wavelength and polarization, sweeping over a wavelength range from 900 nm to 1500 nm, with an average incident power of 110 mW. The waveguides are 0.7 µm high and between 2.2 and 3.2 µm wide, and the SiO top cladding layer is 2 µm thick. We model the dispersion of the higher order spatial modes, and use numerical simulations based on the generalized nonlinear Schrödinger equation to analyze the nonlinear behaviour of the spatial modes within the waveguides as well as the dispersive effects observed in the experiments. We achieve octave spanning supercontinuum with an average power of 175 mW incident on the waveguide at 1000 nm pump wavelength.
我们将二氧化硅包覆和未包覆的五氧化二钽(TaO)波导中的光谱展宽性能表征为输入脉冲中心波长和偏振的函数,扫描波长范围为900nm至1500nm,平均入射功率为110mW。波导高0.7μm,宽2.2至3.2μm,SiO顶部包层厚2μm。我们对高阶空间模式的色散进行建模,并基于广义非线性薛定谔方程进行数值模拟,以分析波导内空间模式的非线性行为以及实验中观察到的色散效应。在1000nm泵浦波长下,当平均功率为175mW入射到波导上时,我们实现了倍频程超连续谱。
