magnetic semiconductor 中文意思是什麼

magnetic semiconductor 解釋
磁性半導體
  • magnetic : adj. 1. 磁(性)的;(可)磁化的。2. 吸引人心的;有魅力的。3. 催眠術的。
  • semiconductor : n. 【物理學】半導體。
  1. Electronic and magnetic properties of 3d transition - metal - doped - - 2 chalcopyrite semiconductor

    2黃銅礦半導體的電磁性質
  2. With the stringent requirement of low output voltage and high output current, semiconductor diode is necessarily replaced by synchronous rectifier to minimum voltage drop. because the existed driving schemes can not drive srs properly, two novel driving schemes for synchronous rectifiers in magnetic amplifier post regulating circuit are proposed in this paper

    已有的同步整流管驅動電路主要面對多路輸出的主輸出電路,而應用磁放大器調節的輔助輸出電路同步整流管的驅動,現有的方法存在磁放大器調節與同步整流管驅動的失配,降低了開關電源的效率。
  3. Moke and fmr studies were performed on epitaxial single crystalline fe ph. d thesis ; investigations of magnetic properties on magnetic thin, ultrathin and patterned films ultathin films on iii - v semiconductor inas substrate with thickness of 8 - 25monolayer ( ml ). the major findings are listed below : ( 1 ) the in - plane magnetic crystalline anisotropy of film with 8 - 25 ml thick are four - fold anisotropy, and the in - plane unixial anisotropy of fe / inas films decreses faster with thickness than that in fe / gaas films. it could be explained that the stain relaxation of fe / inas films is also faster than that in fe / gaas films as indicated by leed

    對于外延生長在inas襯底上、厚度為8 - 25ml的超薄fe單晶膜進行了鐵磁共振和磁光研究,獲得以下幾點結果: ( 1 )膜厚在8 - 25ml之間時,薄膜面內的磁晶各向異性為四度對稱各向異性,垂直單軸各向異性比同厚度的fe gaas系統小許多,而立方各向異性則比fe gaas系統更接近bcc結構的fe 。
  4. Moke and fmr studies were performed on single crystalline fe ultathin films epitaxially grown on iii - v semiconductor gaas substrate with thickness 4. 1 - 33 monolayer ( ml ). a theoretical mode for fitting fmr experimental data was established. the results demonstrated the structures and reproduced the evolution of the magnetic properties of ultrathin films with various thickness from the state of superparamagnetic nano - cluster through coexistence of two magnetic phases to continuous film, especially the change of magnetic crystalline anisotropy from unixial to cubic

    1 - 33原子層厚度( monolayer ,簡稱ml )的fe單晶超薄膜進行了鐵磁共振( fmr )和磁光研究,建立了理論模型對鐵磁共振實驗結果進行了模擬,重現了不同厚度的超薄膜,從納米團簇到兩相共存的過度階段直至連續薄膜結構與磁性的變化,特別是磁各向異性從單軸各向異性向立方各向異性轉變的演化過程。
  5. In the past few years, with the development of electronic technology and semiconductor storage device, solid state recorder ( ssr ) based on dram and flash memory has taken place the tape recorder, magnetic disk and magnetic - optic disk and been the dominating solution for the storage of mass data in the spacecraft

    近年來,隨著電子技術的發展和半導體存儲器密度的不斷提高,以dram和flash為主的固態大容量存儲器逐漸取代了早期星上的磁記錄設備而成為空間飛行器數據記錄的主流方案。
  6. As silicon is the most important semiconductor material in micro - electronic field, one - dimensional nano - structures of silicon play an important role in the fields of device assembly, nanometer - size magnetic device, photoelectronics, and have drawn wide interest in the world

    摘要作為微電子領域最重要的半導體材料,硅的一維納米結構在器件組裝、納米尺寸磁性器件、光電子等領域具有重要的作用,已經成為國際上材料科學研究的一個熱點。
  7. It is suited for : high - tech electronic parts and related products such as magnetic head, ic, lsi, optical fiber, semiconductor, electronic lead frame and etc, require high precision disc wheel with high precision, efficiency cutting and break molding

    適用:高科技電子零件及相關產品,如磁頭ic lsi光纖半導體封裝品電子導線架等,要求高精度高效率切割切斷加工的高精密薄片砂輪。
  8. The material studied in this paper is a novel kind of semiconductor material which is fabricated by incorporating magnetic transition metal ion mn + into ih - v semiconductor compound gaas

    本論文所研究的dms材料便是由磁性過渡族金屬離子mn ~ +摻入-族半導體化合物gaas中而形成的一類新的半導體材料。
  9. To satisfy the experiment request, the equipment generating magnetic field and the angular instrument are improved. for light wave from semiconductor laser is infrared wave in the experiment, the calibrating measurement utilizing visible light from he - ne laser is used. firstly the light path is adjusted using visible light roughly

    在搭建系統時,根據實驗要求對磁場儀(小磁場時的穩定性)及摘要第2頁測角儀(測量精度)進行了改進;在調整光路時, (又據使用的紅外激光光源的特點,採用了先利用he ne激光器的可見光波粗略校準光路,然後換用半導體激光器精確校準光路的方法。
  10. In 1982 professor tsui discovered the remarkable fractional quantum hall effect in his experimental studies of electrons in high - mobility semiconductor heterostructures placed in strong magnetic fields at very low temperatures. professor tsui and his co - workers found unanticipated plateaus in the hall conductivity, characterized by fractional quantum numbers, in contrast to the integral quantum hall effect discovered two years earlier

    崔琦教授於一九八二年發現限制在平面上運動的電子系統在強磁場、極低溫的條件下,形成一種奇異的量子液體,它的準粒子元激發具有分數電荷,遂呈現所謂分數量子霍爾效應。
  11. Owing to the exchange and interaction between electrons of based semiconductor gaas and magnetic impurity mn, this kind of material combines the functionality of semiconductors with that of magnetic compounds, which shows particular structural, electrical and magnetic properties. so this material is promising in the application

    由於這類材料中的基質半導體gaas與磁性雜質原子mn中電子之間的相互轉移及相互作用而使得這類材料兼有半導體及磁性化合物的特點,並在結構、電性質及磁性質等方面表現出一些獨特的性質,因而具有巨大的應用潛力。
  12. Bourdon springs, diaphragms, capsule springs and magnetic pistons are used as the mechanical pressure sensing element ; electronic pressure gauges and switches are based on thin - film technique, ceramic - or piezoresistive semiconductor sensors

    機械壓力傳感器元件有波登彈簧,橫膈膜,圓柱體彈簧和磁感活塞。電子壓力儀表和開關則是基於薄膜技術,陶瓷或壓阻半導體傳感器。
  13. The inductor, which is one of the most important magnetic components, is not only used in lc filter and choke but also in rf communication circuit. the thin film inductor can be integrated with semiconductor components, so far it has not been widely used in these fields, the reason is the limited of thin - film material and substrate, process technology and design technology. designing and fabricating thin film inductor is the key point of this paper

    而作為磁性元器件中最重要的電感,它不僅在lc濾波電路、扼流圈中必不可少,在現代射頻通信電路中也被廣泛使用,特別是能與硅器件一起集成的薄膜電感器,在國際上備受重視,而國內長期以來,由於受薄膜磁芯材料、繞組材料、基片材料,包括製作技術及最為關鍵的設計技術限制,尚未研發出能夠用於這一應用領域的高、中、低頻薄膜電感器。
  14. At present, there are mainly 3 kinds of video recording media, i. e., magnetic tape, disk and semiconductor memory

    現今視頻記錄媒體主要有磁帶、盤式記錄媒體(光盤、磁盤)和半導體存儲器三種。
  15. Diluted magnetic semiconductors ( dmss ) are a new type of semiconductor material formed by substituting magnetic metal ion for nonmagnetic ion

    稀磁性半導體( dms )是指在半導體化合物中,由磁性過渡族金屬離子部分替代非磁性離子所形成的一類新型半導體材料。
  16. The magnetic atoms doped are called magnetic impurities and the nonmagnetic semiconductor is called the based material

    其中被摻入的磁性原子稱作磁性雜質,非磁半導體稱作基質。
  17. If we incorporate a small amount of magnetic atoms into nonmagnetic semiconductor, the properties of the nonmagnetic semiconductor will change and the nonmagnetic semiconductor will exhibit magnetism, consequently diluted magnetic semiconductor will form. we also call it semimagnetic semiconductor ( dms )

    在非磁半導體中摻入微量的磁性原子會改變半導體的某些性質,使其呈現出一定的磁性,從而形成稀磁半導體,也稱作半磁半導體( dms ) 。
  18. Nanoscale semiconductor metal selenides and tellurides have attracted substantial research interests during the past years. it has been demonstrated that the optical, electrical and magnetic properties of them could be tailored in a controllable way by altering their structure, morphology, dimension, or composition

    如何在合成過程中實現對它們的晶體結構、維度、形貌、表面結構和能帶結構的調控,將為實現材料性能的人工剪裁,深入系統研究材料結構與性能的關系具有重要的意義。
  19. A brief introduction to semiconductor spintronics that includes magnetic semiconductor, magnetic / semiconductor compound structures, spin phenomena in the non - magnetic semiconductor quantum well and nanostructures, and spin injection into semiconductor etc. is given

    摘要簡單介紹了半導體自旋電子學的研究對象和內容,主要包括磁性半導體、磁性半導體復合結構、非磁性半導體量子阱和納米結構中的自旋現象,以及半導體的自旋注入等。
  20. The traditional molecular pump with popular bearing can not meet the challenge of semiconductor manufacturing because of the vibration, short life, unpure vacuum and so on. so it is very important to design the magnetic bearing and power amplifier for molecular pump

    本課題研究的目的是,解決傳統軸承型分子泵應用在半導體製造行業時出現轉速低、壽命短、真空不潔凈等問題,設計分子泵的磁懸浮軸承結構和功率放大器,對實現分子泵在半導體工業中的良好應用有著重要的意義。
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