无机材料学报
無機材料學報
무궤재료학보
JOURNAL OF INORGANIC MATERIALS
2001年
2期
193-199
,共7页
光子晶体%光子带隙结构%介电常数的周期性变化
光子晶體%光子帶隙結構%介電常數的週期性變化
광자정체%광자대극결구%개전상수적주기성변화
光子晶体是指具有光子能带和能隙的一类新型材料,它具有奇特的调节光子传播状态的特性.本文将从光子晶体的能带结构、潜在应用和制备方法三方面对其进行综述性介绍.由于光子晶体有着非常广阔的应用前景,这一领域已成为当今世界范围内的研究热点.
光子晶體是指具有光子能帶和能隙的一類新型材料,它具有奇特的調節光子傳播狀態的特性.本文將從光子晶體的能帶結構、潛在應用和製備方法三方麵對其進行綜述性介紹.由于光子晶體有著非常廣闊的應用前景,這一領域已成為噹今世界範圍內的研究熱點.
광자정체시지구유광자능대화능극적일류신형재료,타구유기특적조절광자전파상태적특성.본문장종광자정체적능대결구、잠재응용화제비방법삼방면대기진행종술성개소.유우광자정체유착비상엄활적응용전경,저일영역이성위당금세계범위내적연구열점.
Photonic crystals are a new type of artificial materials with multi-dimensionally periodic dielectric structures. They can create a range of forbidden frequencies called photonic bandgap. Photons with energy lying in the gap cannot propagate through the medium. This has the fascinating prospect to shape and mould the flow of light for photonic information technology,and thus makes photonic crystals one of the hottest research fields nowadays. In this article the author will review the band structures, anticipated applications and preparation methods of photonic crystals.