Hsiao Vincent K S, Li Zhen, Chen Zhe, Peng Peng-Chun, Tang Jieyuan
Department of Applied Materials and Optoelectronic Engineering, National Chi Nan University, Nantou, Taiwan.
Opt Express. 2009 Oct 26;17(22):19988-95. doi: 10.1364/OE.17.019988.
This study presents an optically controllable fiber-optic attenuator consisting of side-polished fiber (SPF) with a photoresponsive liquid crystal (LC) overlay operating in the telecommunication wavelength. Attenuation is controlled by a photochemical-induced phase transition of photoresponsive LC, which modulates the evanescent field leaked from the polished area. Before optical field illumination, the photoresponsive LCs are in the light-scattering state and attenuation is high. During photoirradiation, the formation of cis-azobenzene LC disrupts the nematic host and generates a light-transparent state in which the optical loss of the SPF attenuator decreases. The photoinduced tuning range is 15 dB at an environmental temperature of 45 degrees C, and a repeatable and reversible tuning is observed with a response time of less than 5 s. The proposed all-optical controllable attenuator has potential use as an optical signal modulator in an all-fiber telecommunication system.
本研究提出了一种光控光纤衰减器,它由侧面抛磨光纤(SPF)和在电信波长下工作的光响应液晶(LC)覆盖层组成。衰减是通过光响应液晶的光化学诱导相变来控制的,该相变调制从抛磨区域泄漏的倏逝场。在光场照射之前,光响应液晶处于光散射状态,衰减很高。在光辐照期间,顺式偶氮苯液晶的形成破坏了向列型主体,并产生了一种光透明状态,其中SPF衰减器的光损耗降低。在环境温度为45摄氏度时,光诱导调谐范围为15 dB,并且观察到具有小于5 s的响应时间的可重复和可逆调谐。所提出的全光可控衰减器在全光纤电信系统中具有作为光信号调制器的潜在用途。