磁有序 的英文怎麼說
中文拼音 [cíyǒuxù]
磁有序
英文
magnetic order-
The 4d metals rhodium, palladium, and zirconium do not occur as ordered magnetic materials.
4d金屬銠、鈀、鋯不能作為有序磁性材料。The transition from ferromagnetism to paramagnetism involves a transition from ordered to disordered orientations of electron spins.
由鐵磁性轉變為順磁性涉及到電子自旋的取向由有序向無序轉變。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。The temperature from amorphous to crystal of tungsten oxide sol - gel films with catalyst is increased and the reason is in studying. as results of tunnel scan - afm, both pt sputtered tungsten oxide films and pt sputtered tungsten oxide sol - gel films there is distinct and out - of - order parallel line structure on the surface of amorphous. molecules of the sample tend to tetrahedron and the former has more planarer structure
隧道-原子力顯微鏡測試結果表明:非晶態時,磁控濺射摻鉑薄膜樣品表面和溶膠凝膠摻鉑樣品表面都有明顯的平行線狀結構,長程無序,分子趨於四面體結構,只是前者比後者表面較平整;晶態時,磁控摻鉑樣品在自然生長面上原子呈平面分佈,長程有序,溶膠摻鉑樣品則呈wo6面心結構。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。Progress in research on shape memory alloy films in mems field
磁場誘導有序排列和自組裝的研究進展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。By magnetoelectric coupling, the application of an electric field or ferroelectric polarization can change one or more of the parameters governing the ma gnetic behavior of the system. correspondingly, being possible magnetostrictive effect or electron - phonon interaction, the fluctuation of spin ordering may lead to a dielectric anomaly and ferroelectric relaxation
通過磁電耦合,鐵電有序或外電場可導致自旋的再分佈而改變系統的磁性性質,同樣由於自旋有序的漲落通過磁致伸縮或可能的電-聲子作用可導致鐵電弛豫或介電異常。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。There exists magnetoelectric effects in two type of material, one of them is spin - order material called magnetoelectrics that may exhibits an induced linear magnetoelectric effect by external field. this effect is named as the electrically induced magnetoelectric effect ( me ) e or magnetically induced magnetoelectric effect ( me ) h a ferroelectromagnet, however, differs from the magnetoelectrics in that it shows spontaneous magnetoelectric effects in addition to the ( me ) e, h effects induced by external fields
磁電效應主要存在於兩類物質中,一類是自旋-軌道有序的物質所表現出的外場(磁場或電場)誘導的線性磁電效應( me ) _ ( h , e ) ,又被稱為磁場感生的電矩效應或電場感生的磁矩效應。Some successes have been achieved through microfabrication techniques, but the pursuit of a microscopically ordered pbg in the visible range was still a challenging endeavor. colloidal self - assembly has been utilized as a process to form 3d periodic structures because of its simplicity
電磁流變技術的發展為廉價、簡便地形成三維有序結構以制備光子晶體提供了一條新的途徑,而這種方法的關鍵在於制備粒徑適當的電磁響應性微粒。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。Brought into contact with tragedy, the elements of our being fall, for the moment at any rate, into an ordered and beautiful pattern, as the iron filings arrange themselves under the influence of the magnet
一旦與悲劇相接觸,我們生命中的種種因素,至少在這短短時刻,便納入一種井然有序、異常美好的規范之中,恰如鐵屑在磁鐵的吸力下聚攏起來一樣。In the paper, based on the characteristics of sediments and the susceptibility, the sporopollen diagram was divided into five palynofloral zones by trying to use the cluster analysis of the ordered samples and the program of c + +
本文嘗試利用有序樣品的聚類分析方法,對孢粉帶進行劃分,並用c + +編寫程序,得到5段最優分割。並結合沉積物特徵、磁化率特徵及孢粉圖式劃分出5個孢粉帶。A review of the cmr mechanism in perovskites. this chapter gives review of cmr mechanism, earlier research works on gmr mechanism are listed. some special physics concepts, such as double exchange ( de ), jahn - teller ( j - t ) effect, electron - phonon coupling, are interpreted
第三章綜述了對鈣鈦礦結構氧化物巨磁電阻效應機制的研究,對cmr產生機理做了簡單的介紹,並對諸如雙交換( de )作用、 jahn - teller效應、電荷有序等物理概念有所認識的基礎上總結了已經報道的對巨磁電阻效應機制的研究,最後指出探索cmr效應及其相關現象的途徑。But present preparing methods are difficult to make nanoparticls array ordered. moreover, they usually require severe preparing condition. the paper presents a new preparation method of such film by in - situ chemical transformation with film phase permeation
目前,制備有機-無機磁性納米復合膜是獲得具有良好力學性能和獨特物理化學性質的磁性聚合物膜的有效途徑,但現有的制備方法在促使納米粒子的有序排列和簡化制備條件等方面有所不足。As a kind of condensed state matter, the characteristic and structure of liquid crystal between solid crystal and isotropic liquid. it is a ordering liquid, as the macroscopical characters are concerned, it have the flowing power and viscidity like liquid, and the anisotropy like crystal, it has birefringence, bragg reflection, diffraction and optical rotation like crystal. furthermore, it has thermal light effect, electrical light effect or magneto optical effect in outside field
它是一種有序性的液體,從宏觀物理性質上看,既具有液體的流動性、粘滯性,又具有晶體的各向異性,能象晶體一樣發生雙折射、布拉格反射、衍射及旋光效應,也能在外場作用下產生熱光、電光或磁光效應。The two - dimenstional xy model undergoes an unusual klosterlitz - thouless phase transiton at low temperature, where the system magnetization still vanishes but there is an quai - long order with the spin configuration like the vortex pair
二維xy模型在較低溫時發生了特殊的kt相變,系統磁化強度仍為零,但呈現出類似渦旋對的準長程有序。Especially, the mesoporous silica materials ( designated mcm - 41 ), which is regarded as a novel nano - structured materials, are expected to show potential values in many fields such as adsorption, catalysis, optics, nano - technology, electronics, magnetics and chemical sensors because they exhibit hexagonal structure, the pore size which can be regulated from 1. 5 to 10nm, high specific surface area and thermal stability. 1
特別是以命名為mcm - 41的有序介孔材料的出現,因其孔道呈六方有序排列、孔徑在1 . 5 10nm范圍內可連續調節、高的比表面積和熱穩定性等特點而在吸附、催化、分離、納米技術以及光、電、磁等領域具有廣泛的應用價值,正成為眾多領域的研究熱點之一。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。分享友人