期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

远红外窄带滤光片厚度的鲁棒性分析 被引量:1

Analysis on robustness of thickness of narrowband filters for far infrared
下载PDF
导出
摘要 鉴于在制备过程中存在介质层厚度的随机扰动,计算了远红外窄带滤光片厚度的鲁棒性。结果表明:当随机度小于0.05时,窄带滤光片全向带隙和带隙率变化不大,但缺陷层的透射率只有原来的1/3左右;当随机度大于0.1时,随着厚度的随机扰动逐渐增大,窄带滤光片的全向带隙和带隙率都逐渐减小;当随机度达到0.2时,窄带滤光片的第一个全向带隙消失,第二个全向带隙向短波方向偏移明显,缺陷层的透射率也只有原来的1/3左右;当随机度达到0.5时,窄带滤光片的两个全向带隙全部消失。制备了一种远红外窄带滤光片,其结果较好地验证了厚度的随机扰动对滤光片的影响。 Due to the random fluctuation of thickness of layers in the deposition process, the robustness of thickness of nar rowband filters for far infrared is calculated. The results show that the omnidirectional band gap and the gap ratio of the narrow- band filter change little in accordance with the value of random degree less than 0.05. However, the transmission ratio can only reach to about 1/3 of the original one in the defect layer. Both the omnidirectional band gap and the gap ratio of the narrowband filter decrease with the increase of random fluctuation of thickness when the random degree is over 0.1. The first omnidirectional band gap disappears while the second one obviously transfers to the shortwave direction when the value of random degree reaches to 0.2. Meanwhile, the transmission ratio also reaches to about 1/3 of the original one in the defect layer. The two omnidirectional band gaps disappear totally when the value of random degree reaches to 0.5. A kind of narrowband filter for far infrared is pre- pared, and the results preferably demonstrate the effect of random fluctuation of thickness on the narrowband filter.
作者 王超 时家明 赵大鹏 许波 陈宗胜 林志丹 黄方意 王启超
机构地区 电子工程学院脉冲功率激光技术国家重点实验室 电子工程学院红外与低温等离子体安徽省重点实验室
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2013年第4期858-862,共5页 High Power Laser and Particle Beams
基金 红外与低温等离子体安徽省重点实验室主任基金项目(2010A001002D)
关键词 窄带滤光片 厚度 鲁棒性 随机度 narrowband filter thickness robustness random degree
分类号 O434 [机械工程—光学工程]
  • 相关文献

参考文献11

  • 1Yablonovitch E. Inhibited spontaneous emission in solid state physics and electronics [J]. Phys Rev Lett,1987, 58: 2059-2062.
  • 2John S. Strong localization of photons in certain disordered dielectric superlattices[J]. Phys Rev Lett, 1987, 58: 2486-2489.
  • 3Fink Y, Winn J N, Fan S, et al. A dielectric omnidirectional reflector[J]. Science, 1998, 282: 1679-1682.
  • 4Wiersma D S, Bartolini P, Lagendijk Ad, et al. Localization of light in a disordered medium[J]. Letters to Nature, 1997, 390:18 -25.
  • 5Aziz M, Meissner P, Hermes T. WDM systera integration of micromachined tunable two-chip Fabry-Perot filters[J]. Opt Commun, 2002, 208(1) : 61-68.
  • 6卜轶坤,赵丽,郑权,钱龙生.高损伤阈值激光反射镜的设计方法[J].红外与激光工程,2006,35(2):183-186. 被引量:31
  • 7Sang Tian, Wang Zhanshan, Wang Li, et al. Resonant excitation analysis of sub-wavelength dielectric grating[J]. J Opt A--Pure Appl Opt, 2006, 8(1): 62-66.
  • 8Hunkel D, Marso M, Butz R, et al. Integrated photo-meter with porous silicon interference filters[J]. Mater Sci Eng B, 2000, 69(70): 100-103.
  • 9王占山,王利,桑田,吴永刚,焦宏飞,朱京涛,陈玲燕,王少伟,陈效双,陆卫.窄带多通道滤光片的设计与制备[J].红外与激光工程,2007,36(3):289-292. 被引量:9
  • 10王辉,李永平.用特征矩阵法计算光子晶体的带隙结构[J].物理学报,2001,50(11):2172-2178. 被引量:267

二级参考文献37

  • 1卜轶坤,赵丽,郑权,钱龙生.高损伤阈值激光反射镜的设计方法[J].红外与激光工程,2006,35(2):183-186. 被引量:31
  • 2Cornelius C M, Dowling J P. Modification of Planck blackbody radiation by photonic band-gap structures [J]. Phys Rev A, 1999, 59: 4736.
  • 3Lin S Y, Fleming J G, Chow E, et al. Enhancement and suppression of thermal emission by a three-dimensional photonic crystal [J]. Phys Rev B, 2000, 62: 2243.
  • 4Fleming J G, Lin S Y, EI-Kady I, et al. All-metallic three- dimensional photonic crystals with a large infrared bandgap [J]. Nature, 2002, 52: 417.
  • 5Yu Junfei, Shen Yifeng, Liu Xiaohan, et al. Absorption in one-dimensional metallic-dielectric photonic crystals [J]. J Phys: Condens Matter, 2004, 16: 51.
  • 6Hogstrom H, Ribbing C G. Polaritonic and photonic gaps in SiO2/Si and SiO2/air periodic structures [J]. Photanics and Nanostruetures Fundamentals and Applications, 2004, 2 (1): 23-32.
  • 7Enoch S, Simon J J, Escoubas L, ct al. Simple layer-by-layer photonic crystal for the control of thermal emission [J]. Appl Phys Leg, 2005, 86: 261101.
  • 8Chan D L, Soljacic M, Joannopoulos J D. Thermal emission and design in one-dimensiona/ periodic metallic photonic crystal slabs [J]. Physical Review E, 2006, 74: 016609.
  • 9Joannapolous J D, Johnson S G, Winn J N, et al. Photonic Crystals-Molding the Flow of Light [M]. 2nd ed. USA: Princeton University Press, 2007: 20-21.
  • 10林永昌 卢维强.光学薄膜原理[M].北京:国防工业出版社,1989.323.

共引文献312

同被引文献218

引证文献1

二级引证文献8

强激光与粒子束
2013年 第4期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部