激光技术
激光技術
격광기술
LASER TECHNOLOGY
2014年
3期
293-296
,共4页
赵宇%马可贞%杨德超%郭泽彬%张文栋%薛晨阳%闫树斌
趙宇%馬可貞%楊德超%郭澤彬%張文棟%薛晨暘%閆樹斌
조우%마가정%양덕초%곽택빈%장문동%설신양%염수빈
光纤光学%环形谐振腔%游标效应%自由频谱宽度
光纖光學%環形諧振腔%遊標效應%自由頻譜寬度
광섬광학%배형해진강%유표효응%자유빈보관도
fiber optics%ring resonator%vernier effect%free spectral range
为了验证光纤环形谐振腔的游标效应,对不同长度的光纤环形谐振腔进行了研究。实验研究了长度分别为2.24m和2.52m光纤环形谐振腔透射谱频率的对应关系,当谐振频率相同且自由频谱宽度个数差值为1时,根据差值等分测量原理,以其中一个谐振谱线作为标尺、另一个作为游尺,对标尺的自由频谱宽度九等分,得到游尺的最小测量分度为0.01GHz,这与MATLAB理论仿真结果一致。结果表明,通过改变谐振腔尺寸差,增加自由频谱宽度的等分刻度数,可以提高测量精度;基于微谐振腔对外界环境变化的敏感特性,谐振腔游标效应在高灵敏传感领域将具有潜在的应用。
為瞭驗證光纖環形諧振腔的遊標效應,對不同長度的光纖環形諧振腔進行瞭研究。實驗研究瞭長度分彆為2.24m和2.52m光纖環形諧振腔透射譜頻率的對應關繫,噹諧振頻率相同且自由頻譜寬度箇數差值為1時,根據差值等分測量原理,以其中一箇諧振譜線作為標呎、另一箇作為遊呎,對標呎的自由頻譜寬度九等分,得到遊呎的最小測量分度為0.01GHz,這與MATLAB理論倣真結果一緻。結果錶明,通過改變諧振腔呎吋差,增加自由頻譜寬度的等分刻度數,可以提高測量精度;基于微諧振腔對外界環境變化的敏感特性,諧振腔遊標效應在高靈敏傳感領域將具有潛在的應用。
위료험증광섬배형해진강적유표효응,대불동장도적광섬배형해진강진행료연구。실험연구료장도분별위2.24m화2.52m광섬배형해진강투사보빈솔적대응관계,당해진빈솔상동차자유빈보관도개수차치위1시,근거차치등분측량원리,이기중일개해진보선작위표척、령일개작위유척,대표척적자유빈보관도구등분,득도유척적최소측량분도위0.01GHz,저여MATLAB이론방진결과일치。결과표명,통과개변해진강척촌차,증가자유빈보관도적등분각도수,가이제고측량정도;기우미해진강대외계배경변화적민감특성,해진강유표효응재고령민전감영역장구유잠재적응용。
To verify the vernier effect of fiber ring resonators , fiber ring resonators in different length were studied . The relationship between the transmission spectrum and the fiber ring resonator with the length of 2.24m, 2.52m was analyzed and compared , one resonant spectrum could be used as the ruler and the other as the vernier , when the resonant frequency was the same and the number difference of free spectral range ( FSR ) was only one .Based on the difference aliquot measuring principle and by dividing FSR of the ruler into nine parts , the minimum measurement accuracy of the vernier was 0.01GHz which was consistent with MATLAB theoretical simulation result .Theory and experiments show that the accuracy can be improved by changing the size of the resonant cavity to increase the aliquot number of FSR difference . The vernier effect of resonator is expected to be potentially applied in the field of high -sensitivity sensor because of the sensitivity of the micro-cavity to the change of external environment .