经典与量子呼吸子:在铁电体光子学中的应用

2012 International Conference on Communications, Devices and Intelligent Systems (CODIS) Pub Date : 2012-12-01 DOI:10.1109/CODIS.2012.6422234

A. Biswas, A. K. Bandhyoapdhyay, S. Biswas, A. Bhattacharjee, D. Mandal

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引用次数: 0

摘要

在技术上，钽酸锂是最重要的铁电材料之一，具有低极化场，在光子学和存储开关器件领域有许多应用。由于非线性K-G晶格的强局域性和离散性，在极化-时空图中存在呼吸体和多呼吸体的形成，这些呼吸体表现在跨域的局域峰中。为了探索与离散呼吸体相关的量子态，以便在纳米技术中应用，相同的K-G晶格被量子化以产生量子呼吸体(qb)，量子呼吸体可以用周期边界条件来解释。其次，在非周期边界条件下，量子的时间演化作为杂质的函数表现出有趣的行为，这对于太赫兹应用的设计观点是重要的。

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Classical and quantum breathers: Application in photonics for ferroelectrics

Technologically, lithium tantalate is one of the most important ferroelectric materials with a low poling field that has several applications in the field of photonics and memory switching devices. Due to strong localization coupled with discreteness in a nonlinear K-G lattice, there is a formation of breathers and multi-breathers that manifest in the localized peaks across the domains in polarization-space-time plot. To probe the quantum states related to discrete breathers for the application in nano technology, the same K-G lattice is quantized to give rise to quantum breathers (QBs) that are explained by a periodic boundary condition. Secondly, in a non-periodic boundary condition, the temporal evolution of quanta shows interesting behavior as a function of impurity that is important from design viewpoint for the THz applications.

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2012 International Conference on Communications, Devices and Intelligent Systems (CODIS)

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