Mohri Shintaro, Kasai Takao, Abe Yukio, Shi Yi-Wei, Matsuura Yuji, Miyagi Mitsunobu
Department of Electrical Communications, Tohoku University, Aramaki, Sendai, Japan.
Appl Opt. 2002 Mar 1;41(7):1251-5. doi: 10.1364/ao.41.001251.
We propose sealing techniques for medical hollow fibers to protect the inner surface of fibers from debris or water that scatters from targets. First, hollow fibers are sealed with a film of polymer that is easily formed by use of a dipping technique. The transmission loss of 20-microm-thick sealing film was 0.2 dB for Er:YAG laser light, and the maximum energy that is available for the film was 180 mJ. Second, a sealed glass cap was applied to the output end of hollow fiber. The silica-glass cap with a wall thickness of 400 microm shows a transmission loss of 0.5 dB and was not damaged by radiation of 400-mJ energy pulses.
我们提出了用于医用中空纤维的密封技术,以保护纤维内表面免受来自目标物散射的碎片或水的影响。首先,用一种通过浸渍技术易于形成的聚合物薄膜对中空纤维进行密封。对于Er:YAG激光,20微米厚的密封薄膜的传输损耗为0.2分贝,该薄膜可承受的最大能量为180毫焦。其次,在中空纤维的输出端应用一个密封的玻璃帽。壁厚为400微米的石英玻璃帽的传输损耗为0.5分贝,并且在400毫焦能量脉冲的辐射下未受损。