The ferroelectromagnetic lattice is a magnetoelectric coupling system in which the ferroelectric order and(anti)ferromagnetic order coexist simultaneously below a certain temperature.
铁电磁系统具有在低温下铁电有序和(反)铁磁有序自发共存的特征,存在内禀的磁电耦合效应。
The effect of order-disorder on magnetic properties of FeAl intermetallic deserves much attention.
有序-无序转变对FeAl金属间化合物磁性能的影响应当引起重视。
It proposes that if teachers want to break the silence and closeness of the classroom teaching and start a new system of classroom teaching,the key should be to realize the classroom teaching(systematical→nonsystematical→systematical).
本文立足于课堂教学改革的前沿 ,以“耗散”结构理论透视当前小学课堂教学 ,提出要打破封闭的静态课堂 ,建立一个开放的充满活力的课堂教学新体系 ,关键是要实现课堂教学的“耗散”(即从有序→无序→有序
The extrinsic factors include order-disorder degree, .
其中本征因素是微波介质陶瓷的完美晶体中能获得的微波介电特性,其损耗是最低的,可由微波电场与晶体振动的非简谐性相互作用计算得出;非本征因素则包括有序-无序度、杂质、晶格缺陷、微结构及晶粒大小等诸多因素。