光子学报
光子學報
광자학보
ACTA PHOTONICA SINICA
2008年
2期
301-304
,共4页
光纤光学%光子晶体光纤%双折射
光纖光學%光子晶體光纖%雙摺射
광섬광학%광자정체광섬%쌍절사
Fiber optics%Photonic crystal fiber%Birefringence
通过增加光纤纤芯区域折射率实现了一种高双折射光子晶体光纤.采用全矢量有限元和平面波展开方法,系统地研究了这种高双折射光子晶体光纤在不同的高折射率区域参数(比如区域形状、折射率)情况下的光纤特性.模拟结果表明,光子晶体光纤的双折射可以在优化的参数条件下获得很大提高,光子晶体光纤的非线性系数(连同双折射)也可以同时得到提高.
通過增加光纖纖芯區域摺射率實現瞭一種高雙摺射光子晶體光纖.採用全矢量有限元和平麵波展開方法,繫統地研究瞭這種高雙摺射光子晶體光纖在不同的高摺射率區域參數(比如區域形狀、摺射率)情況下的光纖特性.模擬結果錶明,光子晶體光纖的雙摺射可以在優化的參數條件下穫得很大提高,光子晶體光纖的非線性繫數(連同雙摺射)也可以同時得到提高.
통과증가광섬섬심구역절사솔실현료일충고쌍절사광자정체광섬.채용전시량유한원화평면파전개방법,계통지연구료저충고쌍절사광자정체광섬재불동적고절사솔구역삼수(비여구역형상、절사솔)정황하적광섬특성.모의결과표명,광자정체광섬적쌍절사가이재우화적삼수조건하획득흔대제고,광자정체광섬적비선성계수(련동쌍절사)야가이동시득도제고.
A highly birefringent photonic crystal fiber (PCF) was achieved by increasing the index of the fiber core region. A full-vector finite-element method and a plane-wave expansion method were employed and characteristics of this kind of PCF were fully investigated for different parameters of the high-index region such as the shape or the refractive index. Simulation results show that the birefringence of the PCF can be greatly improved under optimized parameters. And nonlinear coefficient (together with the birefringence) of the PCF can also be enhanced synchronously.
