Design and characterization of magneto-electric sensors. What are the limits?

2012 1st International Symposium on Physics and Technology of Sensors (ISPTS-1) Pub Date : 2012-03-07 DOI:10.1109/ISPTS.2012.6260932

A. Axelsson, F. Aguesse, M. Valant, N. Alford

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Abstract

Multi-functional materials can respond to more than one external stimulus. Here we will present a magneto-electric system, which couples two switchable states; polarization and magnetisation. In magneto-electric materials, magnetic domains can be tuned by the application of an external electric field and electric domains are switched by a magnetic field via a magneto-electric coupling (ME) across the oxide interface. This two-order coupling can be effectively utilized in the development of multiple state memory elements, tuneable magneto-electric inductors where the electric field tunes the permeability in a voltage variable self-inductance device or as magnetic sensors where the magnetic field produces an electric signal. In the case of magnetic field sensors, their sensitivity, room temperature operation and zero power consumption are particularly attractive. In the area of power electronics such materials show potential as high-quality variable inductors, where miniaturisation of the inductors could enable small, lightweight products.

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磁电传感器的设计与表征。限制是什么?

多功能材料可以对一种以上的外界刺激作出反应。这里我们将提出一个磁电系统，它耦合了两个可切换状态;极化和磁化。在磁电材料中，磁畴可以通过外加电场调谐，而电畴可以通过磁场通过氧化物界面上的磁电耦合(ME)来切换。这种二阶耦合可以有效地用于开发多状态存储元件，可调谐磁电电感器，其中电场可调谐电压可变自感器件中的磁导率，或作为磁场产生电信号的磁传感器。就磁场传感器而言，其灵敏度、室温操作和零功耗特别具有吸引力。在电力电子领域，这种材料显示出作为高质量可变电感器的潜力，其中电感器的小型化可以实现小而轻的产品。

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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2012 1st International Symposium on Physics and Technology of Sensors (ISPTS-1)

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