激光与红外
激光與紅外
격광여홍외
LASER & INFRARED
2014年
11期
1253-1257
,共5页
苏安%蒙成举%高英俊%潘继环
囌安%矇成舉%高英俊%潘繼環
소안%몽성거%고영준%반계배
对称缺陷%光子晶体%透射谱%影响
對稱缺陷%光子晶體%透射譜%影響
대칭결함%광자정체%투사보%영향
symmetrical defect%photonic crystal%transmission spectrum%effect
通过传输矩阵法理论,研究两端对称缺陷C对一维光子晶体ACmB(AB)n(BA)nBCmA透射谱的影响,发现:当无缺陷C时,透射谱符合镜像对称结构光子晶体的透射谱特征。当引入缺陷C后,随着缺陷折射率nC的增大,禁带中的透射峰逐渐变宽的同时向高频方向移动。缺陷周期数m及其光学厚度DC对透射谱的影响,在数值上具有明显的奇偶特性,m为奇数或DC为奇数倍时,禁带中心均出现一个较宽的通带,且通带宽度随着m或DC的增大逐渐变窄,而且通带上方的振荡加快,但通带中心所处频率位置不变;m为偶数或DC为偶数倍时,禁带中心均出现一条细窄缺陷模,且缺陷模的宽度随着m或DC的增大缓慢变窄,但其位置不变;两端对称缺陷对对称结构光子晶体透射谱的调制规律,为光子晶体设计窄带、宽带光学滤波器或光开关等提供指导。
通過傳輸矩陣法理論,研究兩耑對稱缺陷C對一維光子晶體ACmB(AB)n(BA)nBCmA透射譜的影響,髮現:噹無缺陷C時,透射譜符閤鏡像對稱結構光子晶體的透射譜特徵。噹引入缺陷C後,隨著缺陷摺射率nC的增大,禁帶中的透射峰逐漸變寬的同時嚮高頻方嚮移動。缺陷週期數m及其光學厚度DC對透射譜的影響,在數值上具有明顯的奇偶特性,m為奇數或DC為奇數倍時,禁帶中心均齣現一箇較寬的通帶,且通帶寬度隨著m或DC的增大逐漸變窄,而且通帶上方的振盪加快,但通帶中心所處頻率位置不變;m為偶數或DC為偶數倍時,禁帶中心均齣現一條細窄缺陷模,且缺陷模的寬度隨著m或DC的增大緩慢變窄,但其位置不變;兩耑對稱缺陷對對稱結構光子晶體透射譜的調製規律,為光子晶體設計窄帶、寬帶光學濾波器或光開關等提供指導。
통과전수구진법이론,연구량단대칭결함C대일유광자정체ACmB(AB)n(BA)nBCmA투사보적영향,발현:당무결함C시,투사보부합경상대칭결구광자정체적투사보특정。당인입결함C후,수착결함절사솔nC적증대,금대중적투사봉축점변관적동시향고빈방향이동。결함주기수m급기광학후도DC대투사보적영향,재수치상구유명현적기우특성,m위기수혹DC위기수배시,금대중심균출현일개교관적통대,차통대관도수착m혹DC적증대축점변착,이차통대상방적진탕가쾌,단통대중심소처빈솔위치불변;m위우수혹DC위우수배시,금대중심균출현일조세착결함모,차결함모적관도수착m혹DC적증대완만변착,단기위치불변;량단대칭결함대대칭결구광자정체투사보적조제규률,위광자정체설계착대、관대광학려파기혹광개관등제공지도。
The transmission matrix method theory is applied to study the effect of bilateral symmetrical defect C on the transmission spectrum of symmetrical photonic crystal ACmB(AB)n(BA)nBCmA. The result shows that when there is no defect C,transmission spectrum shows a characteristic of mirror symmetry photonic crystal. When the defect C is in-troduced,the transmission peak becomes wider and moves to higher frequency with the increasing of refractive index nC.The effect of defect periodicity m and optical thickness DC on the transmission spectrum obviously has a characteristic of numerical parity;when m is odd numbers or the optical thickness DC is odd times,there is a wide transmission band ap-pearing in gap center;it narrows down with the increasing of m or DC,and the oscillation on it becomes intense but its center keeps in a stable frequency. When m is even numbers or the DC is even times,there is a narrow defect mode ap-pearing in gap center,and it slowly becomes narrower with the increasing of m or DC,but its position stays the same.These properties can provide theoretical basis for design of width or narrow optical filter devices.
