激光技术
激光技術
격광기술
LASER TECHNOLOGY
2015年
4期
571-575
,共5页
余先伦%张仔兵%屈勇%舒纯军
餘先倫%張仔兵%屈勇%舒純軍
여선륜%장자병%굴용%서순군
光纤光学%光子晶体光纤光栅弯曲传感器%光子晶体光纤光栅%弯曲传感器
光纖光學%光子晶體光纖光柵彎麯傳感器%光子晶體光纖光柵%彎麯傳感器
광섬광학%광자정체광섬광책만곡전감기%광자정체광섬광책%만곡전감기
fiber optics%photonic crystal fiber grating bending sensor%photonic crystal fiber grating%bending sensor
为了研究弯曲长周期光子晶体光纤光栅传感器谐振波长漂移量与光栅弯曲形变的关系,采用耦合模理论和计算机模拟方法进行了理论计算和仿真研究,推导出弯曲光子晶体光纤长周期光栅谐振波长表达式,设计了一般弯曲长周期光子晶体光纤光栅传感器系统模型,分析了弯曲长周期光子晶体光纤光栅传感器的基本工作原理,并计算了长周期光子晶体光纤光栅弯曲曲率、光栅有效折射率和谐振波长与弯曲应变的关系。结果表明,随着光栅弯曲形变的增加,光栅的曲率会增加,光栅传感器的谐振波长漂移量会增加,光栅每发生1με变化,光栅谐振波长的漂移量变化0.014nm。
為瞭研究彎麯長週期光子晶體光纖光柵傳感器諧振波長漂移量與光柵彎麯形變的關繫,採用耦閤模理論和計算機模擬方法進行瞭理論計算和倣真研究,推導齣彎麯光子晶體光纖長週期光柵諧振波長錶達式,設計瞭一般彎麯長週期光子晶體光纖光柵傳感器繫統模型,分析瞭彎麯長週期光子晶體光纖光柵傳感器的基本工作原理,併計算瞭長週期光子晶體光纖光柵彎麯麯率、光柵有效摺射率和諧振波長與彎麯應變的關繫。結果錶明,隨著光柵彎麯形變的增加,光柵的麯率會增加,光柵傳感器的諧振波長漂移量會增加,光柵每髮生1με變化,光柵諧振波長的漂移量變化0.014nm。
위료연구만곡장주기광자정체광섬광책전감기해진파장표이량여광책만곡형변적관계,채용우합모이론화계산궤모의방법진행료이론계산화방진연구,추도출만곡광자정체광섬장주기광책해진파장표체식,설계료일반만곡장주기광자정체광섬광책전감기계통모형,분석료만곡장주기광자정체광섬광책전감기적기본공작원리,병계산료장주기광자정체광섬광책만곡곡솔、광책유효절사솔화해진파장여만곡응변적관계。결과표명,수착광책만곡형변적증가,광책적곡솔회증가,광책전감기적해진파장표이량회증가,광책매발생1με변화,광책해진파장적표이량변화0.014nm。
In order to study the relationship between the resonant wavelength drift and the grating bending strain of a long period bending photonic crystal fiber grating sensor , based on the coupled mode theory and programming simulation , the resonant wavelength expression of long period bending photonic crystal fiber gratings was deduced .The system model of a general bending photonic crystal fiber grating sensor with long period was designed .The basic principle of the sensor was analyzed .The relationship between the bending curvature , grating refractive index , sensor resonance wavelength and grating bending strain was calculated .The results show that the grating curvature increases with the increase of the bending strain of the grating , and the resonance wavelength drift of the grating sensor increases too .The resonant wavelength drifts 0.014nm with 1με change of the grating .
