Han Tingting, Liu Yan-Ge, Wang Zhi, Guo Junqi, Wu Zhifang, Luo Mingming, Li Shuo, Wang Jing, Wang Wei
Opt Express. 2014 Jun 16;22(12):15002-16. doi: 10.1364/OE.22.015002.
We demonstrated a kind of birefringence-controllable hybrid photonic crystal fibers (HPCFs) by selectively infiltrating air holes of PCFs with index-tunable liquids processing higher index than silica background. Detailed theoretical investigations on mode couplings from fundamental core mode to high-index-liquid-rod modes and birefringence properties of several HPCFs were presented. Strong wavelength dependence of phase and group birefringence was found, and HPCFs with different arrangements of high index liquid rods possess distinct birefringence characteristics. Then, the Sagnac interferometers (SIs) based on two typical HPCFs with different liquid-rod arrangements were theoretically and experimentally studied. The results indicated the SIs exhibit different transmission spectra and temperature responses due to the distinct birefringence features of HPCFs. A temperature sensitivity of -45.8 nm/°C at 56.5 °C was achieved using one HPCF, and a sensitivity of -11.6 nm/°C from 65 °C to 85 °C was achieved using the other HPCF. The thermal tunable HPCFs with birefringence-controllable properties will provide great potential for a variety of tunable optical devices and sensors.
我们通过用折射率高于二氧化硅背景的可调谐液体选择性地填充光子晶体光纤(PCF)的气孔,展示了一种双折射可控的混合光子晶体光纤(HPCF)。文中给出了对几种HPCF从基模到高折射率液芯模的模式耦合以及双折射特性的详细理论研究。发现了相位和群双折射强烈的波长依赖性,并且具有不同高折射率液芯排列的HPCF具有不同的双折射特性。然后,对基于两种具有不同液芯排列的典型HPCF的萨格纳克干涉仪(SI)进行了理论和实验研究。结果表明,由于HPCF不同的双折射特性,SI表现出不同的透射光谱和温度响应。使用一种HPCF在56.5℃时实现了-45.8nm/℃的温度灵敏度,使用另一种HPCF在65℃至85℃范围内实现了-11.6nm/℃的灵敏度。具有双折射可控特性的热可调谐HPCF将为各种可调谐光学器件和传感器提供巨大潜力。