Sampaolo Angelo, Patimisco Pietro, Kriesel Jason M, Tittel Frank K, Scamarcio Gaetano, Spagnolo Vincenzo
Opt Express. 2015 Jan 12;23(1):195-204. doi: 10.1364/OE.23.000195.
Single mode beam delivery in the mid-infrared spectral range 5.1-10.5 μm employing flexible hollow glass waveguides of 15 cm and 50 cm lengths, with metallic/dielectric internal layers and a bore diameter of 200 μm were demonstrated. Three quantum cascade lasers were coupled with the hollow core fibers. For a fiber length of 15 cm, we measured losses down to 1.55 dB at 5.4 μm and 0.9 dB at 10.5 μm. The influence of the launch conditions in the fiber on the propagation losses and on the beam profile at the waveguide exit was analyzed. At 10.5 µm laser wavelength we found near perfect agreement between measured and theoretical losses, while at ~5 µm and ~6 µm wavelengths the losses were higher than expected. This discrepancy can be explained considering an additional scattering loss effect, which scales as 1/λ(2) and is due to surface roughness of the metallic layer used to form the high-reflective internal layer structure of the hollow core waveguide.
展示了在5.1 - 10.5μm中红外光谱范围内使用长度为15cm和50cm、具有金属/电介质内层且内径为200μm的柔性中空玻璃波导进行单模光束传输。三台量子级联激光器与中空芯光纤耦合。对于15cm长的光纤,我们在5.4μm处测得的损耗低至1.55dB,在10.5μm处为0.9dB。分析了光纤中的发射条件对传播损耗以及波导出口处光束轮廓的影响。在10.5μm激光波长下,我们发现测量损耗与理论损耗近乎完美吻合,而在5μm和6μm波长下,损耗高于预期。考虑到一种额外的散射损耗效应可以解释这种差异,这种效应按1/λ(2)缩放,并且是由于用于形成中空芯波导高反射内层结构的金属层的表面粗糙度所致。
