反铁电性
凝聚态物理
反铁磁性
极化(电化学)
物理
对称(几何)
偶极子
点(几何)
量子
理论物理学
班级(哲学)
领域(数学分析)
双层
空格(标点符号)
自旋(空气动力学)
局部对称性
订单(交换)
参数空间
“点”组
单一制国家
反对称关系
自旋极化
点反射
联轴节(管道)
材料科学
准晶
量子力学
作者
Yang Wang,Zhi‐Ming Yu,Chaoxi Cui,Yilin Han,Tingli He,Weikang Wu,Run-Wu Zhang,Shengyuan A. Yang,Yugui Yao
摘要
Antiferroelectricity is a fundamental concept in physics and materials science. Conventional antiferroelectrics (AFEs) have the picture of alternating local electric dipoles defined in real space. Here, we discover a new class of AFEs, termed type-II AFEs, which possess opposite polarizations defined in momentum space across a pair of symmetry decoupled subspaces. Unlike conventional AFEs, the order parameter of type-II AFEs is rigorously formulated through Berry-phase theory and can be quantitatively extracted from the electronic band structure. Focusing on a subclass of type-II AFEs that preserve spin-rotation symmetry, we establish the relevant symmetry constraints and identify all compatible spin point groups. Remarkably, we find that type-II AFE order intrinsically coexists with antiferromagnetism, revealing a robust form of magnetoelectric coupling. We construct an altermagnetic model and identify several concrete antiferromagnetic and altermagnetic materials, such as FeS, Cr_{2}O_{3}, MgMnO_{3}, monolayer MoICl_{2} and bilayer CrI_{3}, that exhibit this novel ordering. Furthermore, we uncover unique physical phenomena associated with type-II spin-AFEs including spin current generation upon AFE switching and localized spin polarization at boundaries and domain walls. Our findings reveal a previously hidden class of quantum materials with intertwined ferroic orders, offering exciting opportunities for both fundamental exploration and technological applications.
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