巨磁電阻 的英文怎麼說
中文拼音 [jùcídiànzǔ]
巨磁電阻
英文
giant magnetoresistance (gmr)- 巨 : Ⅰ形容詞(大; 很大) huge; tremendous; gigantic Ⅱ名詞(姓氏) a surname
- 磁 : 名詞1. [物理學] (磁性; 能吸引鐵、鎳等的性質) magnetism 2. (瓷) porcelain; china
- 電 : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
- 阻 : 動詞(阻擋; 阻礙) block; hinder; impede; obstruct
- 電阻 : (物質阻礙電流通過的性質) resistance; electric resistance (電路中兩點間在一定壓力下決定電流強度...
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As one of the most important applications, cmr bolometer is fabricated using the lacamno3 films, which has a metal - insulator transition temperature at 300k. the archetypal bolometer is fabricated after the film is photolithographed, evaporated au electrodes and fixed
以製作室溫超巨磁電阻測輻射熱儀為目標,將t _ ( mt ) 300k , tcr 5的薄膜進行光刻、電極製作、封裝等處理製作測輻射熱儀原型器件。Giant magnetoresisitance in co ni cu granular ribbons
系列金屬條帶的巨磁電阻效應Low field giant magneto - resistance in nife ag multilayers
多層膜在低場下的巨磁電阻行為Advances in research on gigantic magnetoresistance materials
巨磁電阻材料研究進展Giant magnetoresistance effect of granular films
顆粒膜的巨磁電阻效應Novel magnetic oxides for refrigerants and tunneling magnetoresistance materials
巨磁電阻和磁性能The effect of ion implantation on the giant magnetoresistance of granular film
離子束改性對顆粒膜巨磁電阻效應的影響More recently, the perovskite manganite compounds, a1 - xbxmno3 have received much attention because of their gigantic magnetoresistance ( gmr ) and charge ordering properties
近幾年來,這類鈣鈦礦型結構的氧化物材料因為其具有的巨磁電阻效應受到了更多的關注。Since the discovery of colossal magnetoresistance effect ( cmr ) in per - ovskite manganites, it has sparked considerable renewed interests in these long - known materials with an eye towards both an understanding of the cmr and related properties and potential applications in magnetic information store and low - field magnetic sensors
以鈣鈦礦結構氧化物為代表的巨磁電阻材料,由於它們所表現出來的超大磁電阻效應( colossalmagnetoresistance )在提高磁存儲密度及磁敏感探測元件上具有十分廣闊的應用前景,因而受到人們的廣泛關注。The resistivity of the films drops compared with the as - grown films, but the temperature of maximum magnetoresistance reaches 287k, very close to the room temperature. therefore it is not only an important improvement to fabricate the cmr bolometer which can work near room temperature, but also a prospective research for other applications such as magnetic - sensors, spintronics devices and infrared detectors
同時,退火后薄膜的電阻率明顯下降,外加5t磁場時,最大磁電阻率溫度點上升到287k ,接近於室溫,這不僅為製作室溫超巨磁電阻測輻射熱儀打下了堅實的基礎,也為其它許多器件的應用提供了可能。The variation curve of the giant - magnetoresistance with the change of the thickness of the ferromagnetic layer, a, usually shows a maximum
巨磁電阻隨鐵磁層厚度a的變化曲線通常顯示一個最大值。In the case when the temperature becomes near to 0 ? k, the decrease of temperature makes the giant - magnetoresistance larger when the bias is positive
在絕對溫度零度附近, u為正時溫度下降導致巨磁電阻增加。The cmr materials have complex physical properties. some phenomena of the lacamno3 films are discussed, such as the effects of mismatch between the substrates and the films, the variation of the resistance of films under different bias currents. and the effects and improvements are discussed with details after the films are annealed in high temperature and high oxygen pressure
超巨磁電阻材料有著復雜的物理性質,我們對lacamno _ 3薄膜材料所表現出來的一些現象進行了討論,如應力變化對薄膜性質的影響、不同偏置電流與薄膜電阻變化的關系等,還特別討論了薄膜在高溫、高氧壓環境中退火所帶來的影響以及薄膜性質的改善。The effects of preparation conditions and thermal annealing on the microstructure, magnetic properties and magnetoresistance of fex 1 - x granular films
多晶鈣鈦礦錳氧化物中的巨磁電阻與磁場關系This thesis reports an analytic study on the giant - magnetoresistance of multi - layer sandwich structure and spin - valve structure by using green function quantum statistics approach and nonlinear kubo formula that was derived by sub - dynamics theory
本論文報導使用量子統計格林函數方法以及由子動力學理論推出的非線性響應理論對多層膜三明治結構和自旋閥結構的巨磁電阻效應的解析研究。Similarly, for spin - valve structures giant - magnetoresistance becomes larger when the bias increases. it becomes smaller when the bias is negative
同樣,自旋閥結構的偏壓u增加時巨磁電阻增大,加負壓時巨磁電阻減小。The authors deduced the analytic formula for the calculation of the giant - magnetoresistance of multi - layer sandwich structure and spin - valve structure, and also discussed what the calculation results implied
論文作者得出了多層膜三明治結構和自旋閥結構的巨磁電阻效應的解析公式,並分析了結果的意義。In 1998 vedyayev and cooperators calculated giant - magnetoresistance of multi - layer sandwich structure and spin - valve structure by using the linear response kubo formula and green function technology
1998年vedyayev等人運用這個線性響應的kubo公式和格林函數技術計算了多層膜三明治結構和自旋閥結構的巨磁電阻。One of the most important directions in the study of colossal magnetoresistance materials is to fabricate the bolometer, which can work near the room temperature and shows an excellent performance, if the films can be prepared with the metal - insulator transition temperature ( tmi ) reaching to the room temperature
利用超巨磁電阻材料製作工作于室溫的高性能測輻射熱儀是國際上cmr應用研究的一個重要方向,而能否制備具有室溫轉變點的薄膜材料是其中的一個決定因素。Study on the method of measuring the magnetoresistanoe of materials
巨磁電阻材料磁電阻測量方法研究分享友人