物理学报2016,Vol.65Issue(15):154202-1-154202-7,7.DOI:10.7498/aps.65.154202
基于空间域和频率域傅里叶变换F2的光纤模式成分分析∗
Fib er mo dal content analysis based on spatial and sp ectral Fourier transform
摘要
Abstract
As is well known, a typical measure of the quality of an optical beam is the M 2 parameter, but characterizing the beam quality only by M 2 is insufficient. A low value of M 2 is generally considered to be equivalent to the single-mode operation with a stable beam. However, even when a large amount of power is contained in high-order modes, the existence of a low value of M 2 is still possible. Hence, a low value of M 2 does not guarantee the single-mode operation. Therefore, a new measurement technique, which aims at measuring modal content of high power fiber laser, is proposed and demonstrated in this paper. This method is named spatial and spectral Fourier transform, or F2 transform in short, and it is based on measuring Fourier transform of both spatial domain and spectral domain of output laser. The experimental set is simple in structure and high in robustness. Another advantage of the method is that it requires no prior detailed knowledge of the fiber properties. In this paper, the patterns of the high-order modes between and after Fourier transform are simulated. From the graph it is evident that the energy of spot diffuses outward and is convenient to measure. We also simulate and compare the group delay difference curve of F2 with existing S2, which are well matched with each other. Experimentally, the high-order modes are stimulated by extruding the fiber periodically, which ensures that we can measure it. Firstly, by scanning two-dimensional (2D) pattern of beam after spatial domain Fourier transform and recording the experimental data, and then through the Fourier transform of data in spectral domain, the group delay differences between the high-order modes and the fundamental mode can be obtained. Finally, different modes in spatial domain are reconstructed and the relative power of every mode is calculated. Additionally, we set up an automatic measuring device to verify the effectiveness of the method. The reconstructed modal patterns are presented in the final section of this paper. We can clearly identify the fundamental mode and the high-order modes, such as LP01, LP02, LP03, LP21, LP11, LP12, LP13 and LP14. It reconfirms that this method is feasible. Compared with the S2 method, this method reduces the requirement for precision of mobile platform greatly and thus it is suited to measure the modal content of high power fiber laser output beam. This technique can be effectively applied to a wide variety of measurements, such as dispersion compensator of large-mode-area fiber, bend loss measurement of the high-order modes, refractive index profiles measurement of fiber and mode convertor fiber.关键词
光纤模式/基于空间域和频率傅里叶变换的F2法/群时延差异/光谱干涉Key words
fiber modes/F2 method based on spatial and spectral Fourier transform/group delay difference/spectral interference引用本文复制引用
张澍霖,冯国英,周寿桓..基于空间域和频率域傅里叶变换F2的光纤模式成分分析∗[J].物理学报,2016,65(15):154202-1-154202-7,7.基金项目
国家自然科学基金(批准号:11574221)资助的课题 (批准号:11574221)
