用于高功率、低损耗紫外线传输的单模光纤。

Single-mode optical fiber for high-power, low-loss UV transmission.

作者信息

Colombe Yves, Slichter Daniel H, Wilson Andrew C, Leibfried Dietrich, Wineland David J

出版信息

Opt Express. 2014 Aug 11;22(16):19783-93. doi: 10.1364/OE.22.019783.

DOI:10.1364/OE.22.019783

Abstract

We report large-mode-area solid-core photonic crystal fibers made from fused silica that resist ultraviolet (UV) solarization even at relatively high optical powers. Using a process of hydrogen loading and UV irradiation of the fibers, we demonstrate stable single-mode transmission over hundreds of hours for fiber output powers of 10 mW at 280 nm and 125 mW at 313 nm (limited only by the available laser power). Fiber attenuation ranges from 0.9 dB/m to 0.13 dB/m at these wavelengths, and is unaffected by bending for radii above 50 mm.

摘要

我们报道了由熔融石英制成的大模场面积实心光子晶体光纤，即使在相对较高的光功率下也能抵抗紫外光老化。通过对光纤进行氢加载和紫外光照射的过程，我们证明了在280纳米波长下光纤输出功率为10毫瓦、313纳米波长下为125毫瓦时（仅受可用激光功率限制），能在数百小时内实现稳定的单模传输。在这些波长下，光纤衰减范围为0.9分贝/米至0.13分贝/米，并且对于半径大于50毫米的弯曲不敏感。