TY - JOUR
AU - Lin, Tsung Yin
AB - The alignment of optical components is a key factor when designing and manufacturing multifiber optical systems. This problem can be treated as a standard multiobjective optimization problem and solved by numerical optimization methodologies. The core diameter of a single-mode fiber is ~9 µm, and any slight misalignment during manufacturing will cause signification optical losses in connections. Previous studies have shown that the currently used alignment methods for multifiber devices can increase the optical power summation of all fibers, but the results are not very accurate. This study first compares different numerical optimization methodologies that can be used to find the ideal connection position. Two indices are used to judge the performances of different methods: the required time and the optical power. Next, a two-stage optimization strategy is proposed to obtain a fast and accurate result. In the first stage, the Nelder-Mead simplex method is used to move toward the optimum position quickly. In the second stage, the steepest descent method with polynomial interpolation is applied to improve the accuracy because of the stability of the method.
TI - Using a two-stage optimization strategy for the active alignment of multifiber optical devices
JF - Optical Engineering
DO - 10.1117/1.3421681
DA - 2010-05-01
UR - https://www.deepdyve.com/lp/spie/using-a-two-stage-optimization-strategy-for-the-active-alignment-of-gh3dbj2yR0
SP - 053401
EP - 053401-
VL - 49
IS - 5
DP - DeepDyve
ER -