多铁氧体:磁电耦合的不同途径

Maxim Mostovoy
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引用次数: 0

摘要

多铁氧体中同时存在的铁电性和磁性在宏观尺度上打破了空间反转和时间反转对称性,这为许多有趣的现象打开了大门,类似于粒子物理学中对这些对称性的破坏。多铁氧体的对称性破坏是在相变时自发发生的,而不是在基本相互作用的层面上,因此是可以控制的。此外,每种晶体本身就是一个宇宙,具有一套独特的对称性、耦合常数和有序模式,这为寻找和设计具有强磁电耦合的材料提供了大量机会。
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Multiferroics: different routes to magnetoelectric coupling
The simultaneous presence of ferroelectricity and magnetism in multiferroics breaks both spatial inversion and time reversal symmetries at the macroscopic scale, which opens the door to many interesting phenomena and resembles the violation of these symmetries in particle physics. The symmetry breaking in multiferroics occurs spontaneously at phase transitions rather than at the level of fundamental interactions, and thus can be controlled. Moreover, each crystal is a universe in itself with a unique set of symmetries, coupling constants and ordered patterns, which presents plenty of opportunities to find and design materials with strong magnetoelectric coupling.
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