河池学院学报
河池學院學報
하지학원학보
JOURNAL OF HECHI UNIVERSITY
2012年
5期
37-40
,共4页
光子晶体%二元三周期%透射特性
光子晶體%二元三週期%透射特性
광자정체%이원삼주기%투사특성
photonic crystal%binary three periodic%transmission characteristics
用传输矩阵法理论研究二元三周期一维光子晶体(AmCnAm)k的透射谱,结果发现:在1 900~2 500 nm波长范围内,透射能带谱中出现一个较宽的透射通带,通带两侧的禁带中分别出现两组多条窄带共振透射峰,两组透射峰的条数均可分别由周期数k调节,且条数与k-1数值对应;光子晶体(AmCnAm)k透射能带谱对重复周期数m、n、k变化反应灵敏,当增大m,或增大n,或增大m、n时,光子晶体的透射谱向长波方向移动,即出现红移现象,其中m增大时透射谱红移速度最快,m、n同时增大红移速度次之;随着k,或m,或n,或m、n的增大,光子晶体透射峰的品质因子均不同程度的得到提高。这些特性对光子晶体的实际设计和应用均具有一定的指导意义。
用傳輸矩陣法理論研究二元三週期一維光子晶體(AmCnAm)k的透射譜,結果髮現:在1 900~2 500 nm波長範圍內,透射能帶譜中齣現一箇較寬的透射通帶,通帶兩側的禁帶中分彆齣現兩組多條窄帶共振透射峰,兩組透射峰的條數均可分彆由週期數k調節,且條數與k-1數值對應;光子晶體(AmCnAm)k透射能帶譜對重複週期數m、n、k變化反應靈敏,噹增大m,或增大n,或增大m、n時,光子晶體的透射譜嚮長波方嚮移動,即齣現紅移現象,其中m增大時透射譜紅移速度最快,m、n同時增大紅移速度次之;隨著k,或m,或n,或m、n的增大,光子晶體透射峰的品質因子均不同程度的得到提高。這些特性對光子晶體的實際設計和應用均具有一定的指導意義。
용전수구진법이론연구이원삼주기일유광자정체(AmCnAm)k적투사보,결과발현:재1 900~2 500 nm파장범위내,투사능대보중출현일개교관적투사통대,통대량측적금대중분별출현량조다조착대공진투사봉,량조투사봉적조수균가분별유주기수k조절,차조수여k-1수치대응;광자정체(AmCnAm)k투사능대보대중복주기수m、n、k변화반응령민,당증대m,혹증대n,혹증대m、n시,광자정체적투사보향장파방향이동,즉출현홍이현상,기중m증대시투사보홍이속도최쾌,m、n동시증대홍이속도차지;수착k,혹m,혹n,혹m、n적증대,광자정체투사봉적품질인자균불동정도적득도제고。저사특성대광자정체적실제설계화응용균구유일정적지도의의。
The transmission spectrum of one - dimensional photonic crystal ( AmC,Am ) k is investigated by transfer matrix method. The results show that there is one relative wide transimission band in the wavelength range of 1 900 ~ 2 500 nm, and multiple resonance transmission peaks appear at both sides of the pass band; the number of the transmission peak is the same as that of the structure cycle k - 1. When the numbers of structure cycle m, n and k have changed, the transmission band reaction is very sensitive. The transmission spectrum of photonic crystal moves to red - ray direction (redshift) with increasing m or n or m and n. When m is increased, the redshift is the fastest, the slower redshift as m and n are increased at the same time. When m or n or m and n are increased re- spectively, the quality factor of transmission peak is improved. These characteristics provide referential significance for practical design and application of photonic crystal.