Band Characteristics of a Parity-Time Symmetric Photonic Crystal Made of Multi-Level Atomic Systems

International Review of Physics Pub Date : 2015-06-30 DOI:10.15866/IREPHY.V9I3.7817

J. Shen, Zhenping Xing, Mengmeng Xu, Hao Song, Jian Xu

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Abstract

Partity-time symmetry enables a quantum system or an optical/electromagnetic structure to have real eigenvalue spectra of energy (or wave number). A relatively simple and convenient scenario, which takes advantage of multi-level transition and optical pumping in a four-level atomic system, is suggested in order to achieve parity-time symmetry of such an atomic medium. In the present parity-time symmetric atomic vapor, the real part of the obtained electric permittivity is a constant, and the imaginary part is an odd function (e.g., sine function of spatial coordinate). The optical characteristics of such a parity-time symmetric periodic dielectric have also been studied in this paper. It can be found that the Bloch wave numbers in the present periodic dielectric are purely real or purely imaginary. A threshold in the magnitude of the imaginary part of the parity-time symmetric permittivity for emergence of forbidden band is also indicated in our numerical calculation. The present scenario for realizing parity-time symmetric atomic vapor would find potential applications in some new photonic or quantum optical device design and fabrication.

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由多层原子系统构成的宇称时间对称光子晶体的能带特性

局部时间对称使量子系统或光学/电磁结构具有能量(或波数)的实特征值谱。为了实现原子介质的奇偶时对称，提出了一种相对简单方便的方案，即利用四能级原子系统中的多级跃迁和光泵浦。在现有的奇偶时对称原子蒸气中，得到的介电常数实部为常数，虚部为奇函数(如空间坐标的正弦函数)。本文还研究了这种奇偶时间对称周期介质的光学特性。可以发现，在当前周期介质中的布洛赫波数是纯实数或纯虚数。在我们的数值计算中也指出了出现禁带的奇偶时间对称介电常数的虚部大小的阈值。目前实现奇偶时对称原子蒸汽的方案将在一些新的光子或量子光学器件的设计和制造中找到潜在的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Review of Physics

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