Nonlinear Optics of Multiferroic Materials

M. Fiebig
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Abstract

Multiferroics, that is, materials with a coexistence of long-range magnetic and electric order have been attracting tremendous interest because of pronounced coupling effects between magnetic and electric properties that may be the basis for novel devices in which a magnetization is controlled by an electric voltage rather than by energy-intensive electric-current-driven magnetic fields. For monitoring as well as controlling the magnetoelectric coupling, it is essential to have simultaneous access to the magnetic and electric phase of a multiferroic. Only then, the spatial relation between the magnetic and electric domain structures and their response to external perturbations like applied magnetic or electric fields can be studied. Nonlinear optics is particularly well suited for this purpose.
多铁材料的非线性光学
多铁性材料,即具有长程磁性和电序共存的材料,已经引起了极大的兴趣,因为磁性和电性能之间存在明显的耦合效应,这可能是新型器件的基础,其中磁化由电压而不是由能量密集的电流驱动的磁场控制。为了监测和控制磁电耦合,必须同时获得多铁体的磁相和电相。只有这样,才能研究磁畴结构和电畴结构之间的空间关系以及它们对外加磁场或电场等外部扰动的响应。非线性光学特别适合于这一目的。
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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