Author Affiliations
Abstract
Key Laboratory of Specialty Fiber Optics and Optical Access Networks, Joint International Research Laboratory of Specialty Fiber Optics and Advanced Communication, School of Communication and Information Engineering, Shanghai University, Shanghai 200444, China
Fiber quarter-wave plates and magneto-optical fibers are important components that greatly affect the sensitivity of fiber-optic current sensors. A Tb:YAG crystal-derived silica fiber (TYDSF) was fabricated using a laser-heating drawing technique. The linear birefringence of TYDSF was measured as by a microscope birefringence measurement instrument. A fiber quarter-wave plate was fabricated by TYDSF at 1310 nm, which produced circularly polarized light with a polarization extinction ratio of 0.34 dB. Additionally, the linear birefringence of TYDSF was decreased by 22% by annealing at 750°C for 7 h, and the Verdet constants of annealed TYDSF were measured to be 9.83, 6.67, and at 808, 980, and 1310 nm, respectively.
Faraday effect linear birefringence fiber quarter-wave plate Chinese Optics Letters
2023, 21(11): 110601
1 北京邮电大学信息光子学与光通信国家重点实验室, 北京 100876
2 东华大学纤维材料改性国家重点实验室, 上海 201600
3 新南威尔士大学电气工程与通信学院光子学与光通信实验室, 悉尼 2052, 澳大利亚
4 重庆三峡学院电子与信息工程学院, 重庆 404000
为开发低成本且性能稳定的超宽带光源, 研究了基于铋铒共掺光纤(BEDF)的超宽带光源的输出光谱特性。当使用830 nm激光器抽运时, 输出光谱覆盖了整个O、E、S、C、L波段, 半峰全宽达525 nm。将该BEDF超宽带光源应用于波分复用光纤光栅传感系统, 实现了O波段和C波段的应力传感。实验结果表明, 将BEDF超宽带光源应用于大规模光纤光栅传感网络, 可大幅度提高传感系统的复用容量。
传感器 超宽带光源 掺铋光纤 光纤光栅传感
1 北京邮电大学 信息光子学与光通信国家重点实验室, 北京 100876
2 中国电信股份有限公司广州研究院,广州 510630
3 澳大利亚新南威尔士大学 电气工程与通信学院 光子学与光通信实验室, 悉尼 2052
分别用980 nm和830 nm的半导体激光器作为泵浦源激发铋/铒共掺光纤,采用前向和背向泵浦方式分析放大的自发辐射谱特性.实验结果表明:随着泵浦功率的增大,荧光强度显著增强.利用980 nm半导体激光器,采用前向泵浦方式可激发以1 142 nm和1 536 nm为中心的两个辐射带,以1 142 nm为最高辐射峰的3 dB带宽是141 nm,以1 536 nm为最高辐射峰的3 dB带宽是29 nm.利用830 nm半导体激光器,采用前向泵浦方式可激发以1 421 nm为中心的荧光谱,3 dB带宽是447 nm.980 nm和830 nm激光器分别前向泵浦铋/铒共掺光纤时,随着光纤长度的增加,荧光先增强后减弱;分别背向泵浦铋/铒共掺光纤时,随着光纤长度的增加,荧光强度先逐渐增强后保持稳定.在25~80℃的温度范围内,铋/铒共掺光纤的荧光强度几乎不受温度的影响.使用980 nm和830 nm泵浦源同时激发铋/铒共掺光纤,结果表明铋/铒共掺光纤的发光中心具有相对独立性,发光范围存在部分重叠.
光纤光学 光谱学 掺铋光纤 自发辐射谱 Fiber optics Spectroscopy Bismuth-doped fiber Spontaneous emission spectrum
1 北京邮电大学信息光子学与光通信国家重点实验室, 北京 100876
2 澳大利亚新南威尔士大学电气工程与通信学院光子学与光通信实验室, 悉尼 2052
基于自主研制的掺铋光纤,对其进行光谱特性的实验和理论研究。通过实验测得的吸收光谱发现了4 个明显的吸收带,其中心分别是494、816、946、1410 nm。运用Giles 模型对此光纤进行了放大特性的研究,分析了光纤长度、抽运功率和输入信号光功率等参数对信号的增益和噪声指数的影响。建立了稳态情况下三能级跃迁模型的速率方程和传输方程,并利用Runge-Kutta算法进行了数值研究。结果表明掺铋光纤在波长为830 nm 、功率为200 mW的光波抽运时,1384~1480 nm 波段的增益系数大于1.5 dB/m,噪声系数趋近5 dB。
光纤光学 光谱学 掺铋光纤 Giles模型 吸收谱 增益系数
Author Affiliations
Abstract
1 Department of Electronic Engineering and Information Science, University of Science and Technology of China, Hefei 230026, China
2 Anhui Key Laboratory of Soft Matter Chemistry, Department of Polymer Science and Engineering, University of Science and Technology of China, Hefei 230026, China
A single-mode polymer optical fiber (POF) with highly photosensitive core doped with benzil dimethyl ketal (BDK) is fabricated and used for writing Bragg grating through the two-beam interference method. The Bragg wavelength of the grating is about 1570 nm, while the full-width at half-maximum (FWHM) of the reflection peak is 0.3 nm. The temperature response of POF Bragg grating is theoretically analyzed and experimentally measured in contrast to silica optical fiber Bragg grating (FBG). The result shows that the temperature character of POF Bragg grating is negative, which is opposite to the silica optical FBG. The absolute value of the temperature response of POF Bragg grating is one order of magnitude higher than that of the silica optical FBG, making POF Bragg grating appear to be very attractive for constructing temperature sensors with high resolution.
聚合物光纤 光纤光栅 温度传感 060.3738 Fiber Bragg gratings, photosensitivity 060.2370 Fiber optics sensors 060.3735 Fiber Bragg gratings Chinese Optics Letters
2011, 9(2): 020602
1 中国科学技术大学物理系, 安徽省光电子科学与技术重点实验室
2 中国科学技术大学高分子科学与工程系, 合肥 230026
采用美国德州仪器公司开发的Spreeta系列小型化SPR传感模块, 实验研究了环境温度变化对便携式表面等离子体共振传感器工作特性的影响.发现随着温度的升高, 共振角度向小角度方向移动,并提出了完整的理论分析模型.该模型讨论了环境温度变化对金属薄膜、棱镜、待测物的物理性质的影响, 模拟结果与实验测量结果吻合得很好.
便携式传感器 表面等离子体共振 温度特性 Portable sensors Surface plasmon resonance Temperature characteristics
