Controlling Dispersion and Transmission Spectra of Hybrid Resonant-Gas-Filled Photonic-Crystal Optical Components

A. M. Zheltikov; A. N. Naumov; P. Barker; R. B. Miles

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Controlling Dispersion and Transmission Spectra of Hybrid Resonant-Gas-Filled Photonic-Crystal Optical Components

机译：混合谐振气体填充光子晶体光学元件的色散和透射谱的控制

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Using the model of an infinite one-dimensional periodic layered structure, we consider the possibilities of controlling dispersion properties and transmission spectra of hybrid optical components consisting of photonic band-gap structures filled with a resonant gas. It is shown that the combination of resonance-enhanced gas dispersion with the dispersion of a photonic band-gap structure may give rise to new features in the dispersion and transmission of hybrid spectral elements. These effects can be employed to create narrowband filters and ultrarefractive prisms with controllable parameters.

机译：使用无限一维周期性分层结构的模型，我们考虑了控制由填充有共振气体的光子带隙结构组成的混合光学组件的色散特性和透射光谱的可能性。结果表明，共振增强的气体色散与光子带隙结构的色散的结合可能会在混合光谱元素的色散和透射中产生新的特征。这些效果可用于创建参数可控的窄带滤光片和超折射棱镜。

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《Optics and Spectroscopy》 |2000年第2期|共5页
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A. M. Zheltikov; A. N. Naumov; P. Barker; R. B. Miles;
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正文语种 eng
中图分类光学;
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1. Controlling Dispersion and Transmission Spectra of Hybrid Resonant-Gas-Filled Photonic-Crystal Optical Components [J] . A. M. Zheltikov, A. N. Naumov, P. Barker, Optics and Spectroscopy . 2000,第2期

机译：混合谐振气体填充光子晶体光学元件的色散和透射谱的控制
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机译：半透射部分在具有色散管理和中跨光谱反转中光传输链路净剩余色散的剩余色散对剩余分散的影响
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Controlling Dispersion and Transmission Spectra of Hybrid Resonant-Gas-Filled Photonic-Crystal Optical Components

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