激光与红外
激光與紅外
격광여홍외
LASER & INFRARED
2014年
5期
559-562
,共4页
光子晶体%光学厚度%调制%透射谱
光子晶體%光學厚度%調製%透射譜
광자정체%광학후도%조제%투사보
photon crystal%optical thickness%modulation%transmission spectrum
利用传输矩阵法理论,研究介质光学厚度对一维光子晶体(AB)5(BA)5透射谱特性的影响,结果表明:只要A、B介质光学厚度满足DA=DB ,随着介质光学厚度的增大,光子晶体透射峰的透射率、频率位置和带宽均保持不变;当A、B介质的光学厚度不相等即DA≠DB 时,随着DA或DB ,或DA、DB的增大,禁带中透射峰的透射率不变但带宽变宽,且当DA >DB 时透射峰向高频方向移动,反之则向低频方向移动。介质光学厚度对光子晶体透射谱的调制规律,可为光子晶体模型的构建、窄带光学滤波器和光学开关的设计等提供有益参考。
利用傳輸矩陣法理論,研究介質光學厚度對一維光子晶體(AB)5(BA)5透射譜特性的影響,結果錶明:隻要A、B介質光學厚度滿足DA=DB ,隨著介質光學厚度的增大,光子晶體透射峰的透射率、頻率位置和帶寬均保持不變;噹A、B介質的光學厚度不相等即DA≠DB 時,隨著DA或DB ,或DA、DB的增大,禁帶中透射峰的透射率不變但帶寬變寬,且噹DA >DB 時透射峰嚮高頻方嚮移動,反之則嚮低頻方嚮移動。介質光學厚度對光子晶體透射譜的調製規律,可為光子晶體模型的構建、窄帶光學濾波器和光學開關的設計等提供有益參攷。
이용전수구진법이론,연구개질광학후도대일유광자정체(AB)5(BA)5투사보특성적영향,결과표명:지요A、B개질광학후도만족DA=DB ,수착개질광학후도적증대,광자정체투사봉적투사솔、빈솔위치화대관균보지불변;당A、B개질적광학후도불상등즉DA≠DB 시,수착DA혹DB ,혹DA、DB적증대,금대중투사봉적투사솔불변단대관변관,차당DA >DB 시투사봉향고빈방향이동,반지칙향저빈방향이동。개질광학후도대광자정체투사보적조제규률,가위광자정체모형적구건、착대광학려파기화광학개관적설계등제공유익삼고。
The modulation of optical thickness on transmission spectrum of one-dimensional photonic crystal was stud-ied by using transfer matrix theory.The results show that the transmittance,frequency and bandwidth of transmission peak are not changed with increasing the optical thickness of medium when the optical thickness of A and B medium are equivalent (DA=DB );when the optical thickness DA and DB are not equivalent (DA≠DB ),with increasing DA or DB or DA and DB ,the transmittance of transmission peak is not changed,but the bandwidth is widen,and when DA >DB ,the transmission peak shifts to higher frequency,on the contrary,the transmission peak shifts to the lower frequen-cy.These laws of modulation can provide a useful reference for construction of the photon crystal model and design of narrow band optical filter and optical switch.
