受限原子蒸气/电介质周期层状结构中光子带隙的厚度调制 |
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引用本文: | 李莉,赵小侠,李姝丽,张相武,李院院.受限原子蒸气/电介质周期层状结构中光子带隙的厚度调制[J].原子与分子物理学报,2016,33(6). |
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作者姓名: | 李莉 赵小侠 李姝丽 张相武 李院院 |
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作者单位: | 西安文理学院,西安文理学院,西安文理学院,西安文理学院,西安文理学院 |
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摘 要: | 周期性受限原子蒸气/电介质层光子带隙(PBG)宽度及其诱导的反射平顶随蒸气层厚度 d的增大而变宽,并在 ( 为原子的共振波长)时达到最大值,之后随d的增大呈变窄趋势. 随着蒸气厚度的增大,带隙的中心频率产生红移,厚度越大,红移量越大. 研究还发现,共振波长处的反射及透射谱具有迪克窄化结构. 这种可调谐的PBGs结构可望用于全光反射镜及滤波器.
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关 键 词: | 受限原子 光子带隙 厚度调制 |
Thickness modification on photonic band gap in periodic layers of confined atomic vapor/dielectric medium |
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Abstract: | The width of photonic band gap (PBG) and the gap induced reflectance flat-top in periodic layers of confined atomic vapor/dielectric medium are broadened as the vapor thickness d increases, and approach to a maximum value at (where is the atomic resonant wavelength), and then, they are narrowed again as d increases. The gap center frequency is red-shifted as the vapor thickness increases, the larger the vapor thickness, the greater the shifted amount. Dicke-narrowing reflection and absorption lines are also exhibited at resonant wavelength. These tunable PBGs can be probably used in the applications of all-optical reflectance mirrors and filters. |
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Keywords: | Confined atoms photonic band gap thickness modification |
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