集成超晶格和超材料

2014 11th Annual High Capacity Optical Networks and Emerging/Enabling Technologies (Photonics for Energy) Pub Date : 2014-12-01 DOI:10.1109/HONET.2014.7029392

R. Tsu, M. Fiddy

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引用次数: 0

摘要

物理学是建立在使用由随机相位近似控制的本构方程来处理由波的相位的时空变化引起的消去。在工程材料中，对相的特殊处理成为可能，例如畴的形成和周期性。当处理涉及超晶格和超材料的相互作用时，电子或电磁波的相位可以用许多方法来利用。例子包括增益系统，如放大器和振荡器，以及作为无源阻抗匹配元件，如与透镜成像。

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Integrated superlattices and metamaterials

Physics is built on the use of constitutive equations governed by the Random Phase Approximation to deal with cancellations resulting from space-time variations of the phase of waves. Special handling of phase becomes possible in engineered materials, such as domain formations and periodicity. When dealing with interactions involving superlattices as well as metamaterials, the phase of electron or electromagnetic waves can be exploited in numerous ways. Examples include systems with gain such as amplifiers and oscillators, as well as serving as passive impedance matching elements such as image formation with lenses.

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2014 11th Annual High Capacity Optical Networks and Emerging/Enabling Technologies (Photonics for Energy)

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