QUASI-OPTICAL FREQUENCY SELECTIVE SURFACE FOR ATMOSPHERIC REMOTE SENSING APPLICATION

	QUASI-OPTICAL FREQUENCY SELECTIVE SURFACE FOR ATMOSPHERIC REMOTE SENSING APPLICATION
	Bu Gang Xia ; De Hai Zhang ; Jian Huang ; Jin Meng
刊名	Progress in Electromagnetic Research M (PIER M)
	2013
卷号	32 页码:115-127
ISSN号	1937-8726
通讯作者	北京8701信箱
中文摘要	The design of an efficient quasi-optics Frequency Selective Surface (FSS) filter which is required to provide a -3 dB pass band from 405 GHz to 441 GHz is presented. For atmospheric remote sensing application, this space-borne spatial device consists of a silicon layer and a thin copper layer which is perforated with periodic arrays of resonant dipole slots and circular apertures. FSS unit cell has a dimension much smaller than its operating wavelength. Unique features of this complex dense FSS structure include wide pass band properties with superb performance of frequency response and incident angles independence for TE polarization. Floquet mode analysis and finite element method (FEM) models are used to establish the geometry of the periodic structure and predict its spectral response.
学科主题	微波遥感
语种	英语
内容类型	期刊论文
源URL	[http://ir.cssar.ac.cn/handle/122/2061]
专题	国家空间科学中心_微波遥感部
推荐引用方式 GB/T 7714	Bu Gang Xia,De Hai Zhang,Jian Huang,et al. QUASI-OPTICAL FREQUENCY SELECTIVE SURFACE FOR ATMOSPHERIC REMOTE SENSING APPLICATION[J]. Progress in Electromagnetic Research M (PIER M),2013,32:115-127.
APA	Bu Gang Xia,De Hai Zhang,Jian Huang,&Jin Meng.(2013).QUASI-OPTICAL FREQUENCY SELECTIVE SURFACE FOR ATMOSPHERIC REMOTE SENSING APPLICATION.Progress in Electromagnetic Research M (PIER M),32,115-127.
MLA	Bu Gang Xia,et al."QUASI-OPTICAL FREQUENCY SELECTIVE SURFACE FOR ATMOSPHERIC REMOTE SENSING APPLICATION".Progress in Electromagnetic Research M (PIER M) 32(2013):115-127.