metal insulator transition 中文意思是什麼
metal insulator transition
解釋
金屬絕緣體躍遷- metal : n 1 金屬;金屬製品;金屬合金。2 【化學】金屬元素;(opp alloy);金屬性。3 【徽章】金色;銀色。4 ...
- insulator : n. 1. 隔離者。2. 隔離物,隔振子,隔電子。3. 【物理學】絕緣物,絕緣體,絕緣子;絕熱體。
- transition : n 轉變,演變,變遷,變化;飛越;過渡期;【音樂】變調,轉調;【修辭學】語次轉變;【語法】轉換;【...
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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。 -
The discovery of the colossal magnetoresistance ( cmr ) in hole - doped perovskite manganites ra1 - xmxmno3 ( ra is a trivalent rare - earth ion and m is a metal ion ) has attracted much attention since 1989 due to not only its technological applications in magnetic recording and sensor, but also the effect of the strong correlation concerning metal - insulator transition in the field of basic research. since then, several physics models have been suggested to explain the mechanism of cmr. however, the exact mechanism of cmr remains to be done
自1989年在摻雜鈣鈦礦型錳氧化物ra _ ( 1 - x ) m _ xmno _ 3 (其中m為金屬離子, ra為三價稀土離子)中發現龐磁電阻( cmr )以來由於其在磁記錄、磁傳感器等方面潛在的應用前景,以及金屬?絕緣體相變等所涉及的強關聯效應,使該類化合物吸引了物理學界的廣泛注意。 -
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。 -
Crystal structure and metal - insulator transition properties of dc magnetron sputtered la0. 825sr0. 175mno3 films
直流磁控濺射沉積錳酸鍶鑭薄膜的結構與相變特性研究 -
The metal - insulator transition temperature ( tmi ) varies from 190k to 240k commonly for the as - grown samples
濺射后無處理時薄膜的金屬?絕緣體轉變溫度點通常在190 240k之間。 -
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。
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