强激光与粒子束
彊激光與粒子束
강격광여입자속
HIGH POWER LASER AND PARTICLEBEAMS
2014年
10期
101009-1-101009-6
,共1页
刘骁%陈建国%韩敬华%张彬%崔旭东
劉驍%陳建國%韓敬華%張彬%崔旭東
류효%진건국%한경화%장빈%최욱동
光子晶体光纤%等效折射率模型%有限元法%大模场%无截止单模%可调色散
光子晶體光纖%等效摺射率模型%有限元法%大模場%無截止單模%可調色散
광자정체광섬%등효절사솔모형%유한원법%대모장%무절지단모%가조색산
photonic crystal fiber%effective index method%finite element method%large mode area%no cutoff single mode%tunable dispersion
在高功率密度下产生的非线性效应和材料损伤等问题限制了光纤激光器输出功率的进一步提高。利用大模场光纤降低光纤能量密度,提高非线性阈值是一种最为直接和有效的手段。以空气孔尺寸为光波长量级的全内反射型光子晶体光纤为对象,采用等效折射率模型分析了光子晶体光纤的单模特性,利用有限元法分析了结构参数对光子晶体光纤的模场面积和色散等光束质量参数的影响。设计了一种工作波长为0.40~1.55μm,模场面积为112.74~258.87μm2,且在1.27μm附近可补偿色散的大模场光子晶体光纤。该研究可为高功率光纤激光器大模场光纤的进一步参数优化设计及元件加工提供重要参考。
在高功率密度下產生的非線性效應和材料損傷等問題限製瞭光纖激光器輸齣功率的進一步提高。利用大模場光纖降低光纖能量密度,提高非線性閾值是一種最為直接和有效的手段。以空氣孔呎吋為光波長量級的全內反射型光子晶體光纖為對象,採用等效摺射率模型分析瞭光子晶體光纖的單模特性,利用有限元法分析瞭結構參數對光子晶體光纖的模場麵積和色散等光束質量參數的影響。設計瞭一種工作波長為0.40~1.55μm,模場麵積為112.74~258.87μm2,且在1.27μm附近可補償色散的大模場光子晶體光纖。該研究可為高功率光纖激光器大模場光纖的進一步參數優化設計及元件加工提供重要參攷。
재고공솔밀도하산생적비선성효응화재료손상등문제한제료광섬격광기수출공솔적진일보제고。이용대모장광섬강저광섬능량밀도,제고비선성역치시일충최위직접화유효적수단。이공기공척촌위광파장량급적전내반사형광자정체광섬위대상,채용등효절사솔모형분석료광자정체광섬적단모특성,이용유한원법분석료결구삼수대광자정체광섬적모장면적화색산등광속질량삼수적영향。설계료일충공작파장위0.40~1.55μm,모장면적위112.74~258.87μm2,차재1.27μm부근가보상색산적대모장광자정체광섬。해연구가위고공솔광섬격광기대모장광섬적진일보삼수우화설계급원건가공제공중요삼고。
The nonlinear effect and material damage existing in high power fiber lasers restrict their output power.A large mode area fiber,which could reduce the power density and improve the nonlinear threshold,is one of the solutions to the prob-lem.A photonic crystal fiber with air holes at wavelength scales was designed based on the effective index model and finite ele-ment analysis.The single-mode properties as well as the influence of structural parameters on the mode area and dispersion were investigated.Considering practical applications,we designed a large mode area photonic crystal fiber,operating in the range of 0.40~1.55μm,mode area between 112.74~258.87μm2 ,centering at 1.27μm with dispersion compensation ability.Our in-vestigations may provide new references to the optimization and fabrication of large mode area fiber for high power fiber lasers.