红外技术, 2010, 32 (4): 235, 网络出版: 2011-01-05
一维掺杂光子晶体用于远红外与激光兼容隐身分析
Analysis on Far Infrared and Laser Band Compatible Camouflage of One-dimensional Doped Photonic Crystals
摘要
远红外与激光兼容隐身材料是当今世界隐身材料研究的热点,而红外隐身与激光隐身对材料的要求是矛盾的,常规材料很难做到。光子晶体的出现,有望解决这一问题。基于一维掺杂光子晶体,设计了一种基于光子晶体的远红外与激光兼容隐身材料,利用薄膜光学理论的特征矩阵法计算了反射光谱。结果表明,利用一维掺杂光子晶体可以实现远红外与激光兼容隐身。
Abstract
Far infrared and laser band compatible camouflage is a researchful hotspot of camouflage material in today world, but the demands of infrared and laser camouflage are ambivalent., which are difficult for routine materials.This problem could be solved by the appearance of photonic crystals.Based on one dimensional doped photonic crystal, designed a kind of far infrared and laser band compatible camouflage material, then the reflectance spectrum was calculated by characteristic matrix method of thin-film optical theory. The result shows that one dimensional doped photonic crystal can achieve far infrared and laser band compatible camouflage.
高永芳, 时家明, 赵大鹏. 一维掺杂光子晶体用于远红外与激光兼容隐身分析[J]. 红外技术, 2010, 32(4): 235. GAO Yong-fang, SHI Jia-ming, ZHAO Da-peng. Analysis on Far Infrared and Laser Band Compatible Camouflage of One-dimensional Doped Photonic Crystals[J]. Infrared Technology, 2010, 32(4): 235.