CAJ | 학술논문

光纤阵列是一种广泛应用于光纤通信系统和光纤传感网络中的光学器件，其纤芯位置误差严重影响器件的耦合效率，有必要进行精密检测。论文研究一种基于显微视觉技术的光纤阵列精密测量方法。采用数字显微系统获取包含至少两根光纤像斑的图像，通过二次多项式插值法实现光纤光斑边缘的亚像素级提取，利用最小二乘拟合法对光斑中心精确定位，从而计算出两根光纤之间的纤芯距。系统测量分辨率为16 nm，重复测量标准差为23 nm。该方法可实现光纤阵列间距的自动化、非接触、高精度测量。
광섬진렬시일충엄범응용우광섬통신계통화광섬전감망락중적광학기건，기섬심위치오차엄중영향기건적우합효솔，유필요진행정밀검측。논문연구일충기우현미시각기술적광섬진렬정밀측량방법。채용수자현미계통획취포함지소량근광섬상반적도상，통과이차다항식삽치법실현광섬광반변연적아상소급제취，이용최소이승의합법대광반중심정학정위，종이계산출량근광섬지간적섬심거。계통측량분변솔위16 nm，중복측량표준차위23 nm。해방법가실현광섬진렬간거적자동화、비접촉、고정도측량。
A precision method for measuring accurately the core pitch of fiber array (FA)is reported,which can be broadly used in optical communication systems and distributed fiber sensor network.The measurement system mainly consists of a white light source,a precision stage,a microscope,a CCD and a computer.The image comprising at least two fiber cores is acquired.The edge of the fiber core is extracted at sub-pixel level through quadric polynomial inter-polation method and the center is located through least square method.Experimental results indicate that,the fiber pitch can be measured with a resolution of 16nm and a standard deviation of 23nm.This method can realize the auto-mation,non-contact,high precision measurement of fiber array spacing.