magnetic ordering 中文意思是什麼
-
The existence a smaller crystal field can magnify magnetic ordering region at low temperatures and can depress one at high temperatures. the existence of a lager transverse field can a lso assist the occurrence of reentrant phenomena
在隨機橫場作用下的平方格子中,較小晶場的存在能使系統低溫時的磁有序相范圍增大;而較大的橫場也有助於重入現象的出現。 -
An anomalies in the dielectric constants and loss tangent have been observed experimentally in the ferroelectromagnet near the antiferromagnetic transition temperature, indicative of a coupling between the ferroelectric and magnetic ordering, but the nature of the mechanism of magnetoelectric coupling and the form of interaction is still an important and debated issue
而另一類是鐵電磁體,它除了具有一般磁電體的性質外,還由於固有的本徵磁有序和鐵電有序的耦合使之存在自發的磁電效應。實驗上已經發現了由於自發的磁電耦合導致的介電異常和損失正切。 -
Although ferroelectric ordering doe s not appear within the whole temperature range in eutio3, coupling of a certain form between the ordering parameters in electrical and magnetic subsystems causes the dielectric anomaly near its neel temperature
盡管eutio _ 3在整個溫度范圍內不出現鐵電有序態,可視為其電序參量平均值為零,但電系統和磁系統序參量某種形式的耦合導致了該材料在尼爾溫度附近的介電反常。 -
The ferroelectromagnets, in which ferroelectric ordering and magnetic spin ordering coexist spontaneously at low temperature, have been the object of intensive theoretical and experimental studies from the 60 - 70 ' s last century for its connection with the finding out this kind of material and theirs some special properties of physics own to magnetoelectric coupling
鐵電磁系統是指在某一溫度范圍內,同時具有鐵電有序和鐵磁有序的體系。自上世紀60 - 70年代以來,由於這類材料的不斷發現以及兩種有序共存耦合導致某些特有的物理性質,而使之備受人們的關注。 -
The study shows that the former is main reason of the reentrant phase transition of system, while the later is not contribute to reentrant phase transition. on the other hand, when the crystal field is small, magnification of the range of magnetic ordering phase at low temperatures come from the contribution of spin - 1 sublattice, while the result is not discovered in spin - 1 / 2 sublattice
晶場存在時,前者是系統重入相變的主要原因,而後者對重入相變沒有貢獻;另一方面在較小晶場存在時低溫區磁有序相范圍的擴大來自於自旋1子格中橫場及隨機的作用,而自旋1 2子格沒有發現類似現象。 -
This chapter deals with the influent physics properties and some spectacular phenomenon observed in perovskite manganites, including the structure, magnetic and electronic transport, phase diagram, charge / orbital ordering, and insulator - metal transition induced by applied magnetic field or photo radiation etc. this part is helpful to build up a background for the research on colossal magnetoresistance
包括晶體結構、電子結構、磁性質、輸運性質、電磁相圖、有序相,以及其他奇特的物理現象。通過本章,我們將了解到摻雜錳氧化物的基本物理性質,為進入該研究領域作好了準備。 -
Beside the cmr effect, these materials also exhibit intriguing physical properties such as insulator - metal and / or structure transition induced by applied magnetic - field or photo radiation, charge ordering, orbital ordering, and phase separation etc. the full understanding of these properties will definitely stimulate the progress of condensed matter physics
同時,這類材料還表現出諸如磁場或光誘導的絕緣體-金屬轉變,電荷有序、軌道有序、以及相分離等十分豐富的物理內容,涉及到凝聚態物理的許多基本問題,一旦解決了這些問題的微觀物理機制,必將對凝聚態物理的發展和完善起到巨大的推動作用。
分享友人