点偶极子晶体中的模式软化、铁电转变及可调谐光子能带结构

Mode softening, ferroelectric transition, and tunable photonic band structures in a point-dipole crystal.

作者信息

Klugkist J A, Mostovoy M, Knoester J

机构信息

Institute for Theoretical Physics and Materials Science Center, University of Groningen, Nijenborgh 4, 9747 AG Groningen, The Netherlands.

出版信息

Phys Rev Lett. 2006 Apr 28;96(16):163903. doi: 10.1103/PhysRevLett.96.163903. Epub 2006 Apr 27.

DOI:10.1103/PhysRevLett.96.163903

PMID:16712232

Abstract

We study the photonic band structure of cubic crystals of point dipoles. It is shown that in contrast to earlier claims these systems cannot have an omnidirectional photonic band gap. For sufficiently large plasma frequencies, however, they exhibit softening of photonic bands, leading to (anti)ferroelectric ordering of the dipoles and the possibility to open and tune directional band gaps by external electric fields. The model studied may be realized through lattices of quantum dots.

摘要

我们研究了点偶极子立方晶体的光子能带结构。结果表明，与早期的说法相反，这些系统不可能具有全向光子带隙。然而，对于足够大的等离子体频率，它们会表现出光子能带的软化，导致偶极子的（反）铁电有序排列，并且有可能通过外部电场打开和调节定向带隙。所研究的模型可以通过量子点晶格来实现。

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点偶极子晶体中的模式软化、铁电转变及可调谐光子能带结构

Mode softening, ferroelectric transition, and tunable photonic band structures in a point-dipole crystal.

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