perpendicular recording

英 [ˌpɜːpənˈdɪkjələ(r) rɪˈkɔːdɪŋ] 美 [ˌpɜːrpənˈdɪkjələr rɪˈkɔːrdɪŋ]

网络  垂直写入技术; 垂直记录; 垂直记录技术; 垂直磁记录; 垂直录写

计算机

双语例句

  1. Theoretical calculation of the maximum effective recording bit length for perpendicular magnetic recording
    垂直磁记录最大有效记录位长的理论计算
  2. Advancements in perpendicular magnetic recording media were reviewed.
    介绍了垂直磁记录介质近几年的一些新进展。
  3. Researching Progress of the High Density Perpendicular Magnetic Recording Thin Films For Hard Disk
    硬盘用高密度垂直磁记录薄膜研究进展
  4. The Readback Frequency Characteristic of the Single-Layer Medium in Perpendicular Recording with a Single-pole-Head
    单层膜垂直磁记录单极型磁头读出的频率特性
  5. The offtrack and crosstalk properties of perpendicular recording with a single pole head are investigated.
    研究了垂直记录单极型磁头的偏道特性及串音特性。
  6. Ba ferrite films with high coercivity and large squareness for perpendicular magnetic recording
    高矫顽力和大矩形比钡铁氧体垂直磁记录薄膜
  7. Studies of CoPt Thin Films for Ultra-high Density Perpendicular Magnetic Recording Media
    超高密度垂直磁记录用CoPt薄膜的研究
  8. Perpendicular magnetic recording materials;
    垂直磁记录材料;
  9. Domain Structures and Magnetization Reversal Mechanism in Co-CoO Medium for Perpendicular Recording
    垂直磁记录介质Co-CoO膜的磁畴结构和反磁化机理
  10. Research and Development of Perpendicular Magnetic Recording Media for Ultra-High Density
    超高密度垂直磁记录介质研究与进展
  11. The recording medium is a CoNi/ Pt multilayered film, suitable for perpendicular recording.
    记录介质是一种CoNiPt多层膜,它可用作垂直模式的磁记录介质。
  12. Readback voltage of perpendicular recording for high track density with ring-type head is theoretically calculated, and rcadback noise is analysed.
    本文从理论上对高道密度垂直磁记录环形头读出电压进行了计算,并对道间串扰进行了分析。
  13. Study on Co-rare Earth and Its Coupled Thin Films for Perpendicular Magnetic Recording
    Co基稀土及其耦合膜垂直磁记录介质研究
  14. Improvement on Self-Consistent Calculating Method for Perpendicular Recording
    垂直磁记录自相一致算法的改进与分析
  15. High recording density and low noise is possible with relatively small particles, even at large film thickness in perpendicular magnetic recording.
    垂直磁记录即使在膜厚度较厚的情况下,由于粒子尺寸很小,仍然能够实现很高的记录密度并保持低介质噪声。
  16. Compensation for the demagnetizing field in remanence measurements of perpendicular magnetic recording films
    垂直磁记录薄膜实施剩余磁化测量时退磁场的补偿
  17. A Theoretical Analysis of the Readback Process of Perpendicular Recording by the Double-Layer Medium with a MR Head
    双层膜垂直磁记录MR头读出过程的理论分析
  18. In this paper, a new method of compensating for the demagnetizing field is proposed and an effective reverse field H eff is used to evaluate the dc demagnetization remanence curves, isothermal remanent magnetization curves, and the Δ M plots for perpendicular magnetic recording films.
    提出一种新方法,在直流退磁剩磁和等温剩磁测量中采用有效反向磁场来直接补偿退磁场.从而可以正确地得出垂直磁记录薄膜的ΔM曲线并评价晶粒间的磁相互作用。
  19. Theoretical analysis of perpendicular magnetic recording density of single pole head
    单极型磁头垂直磁记录密度大小的理论分析
  20. On a Cross Azimuth Recording Method for High Areal Density Perpendicular Magnetic Recording
    高面密度垂直记录交叉方位角记录方式研究
  21. Theoretical analysis of readback process of high track density perpendicular magnetic recording with single-pole-head
    高道密度垂直磁记录单极头读出过程的理论分析
  22. The magnetic properties of the thin film are excellent for perpendicular magnetic recording medium.
    其磁特性完全适用于作垂直磁记录介质。
  23. Ultra-high density magnetic recording technology has obtained more development due to the application of tunneling magnetoresistance ( TMR) heads and perpendicular recording mode ( PMR) in hard disk drive ( HDD), which enables new applications of HDD in small form factors for consumer electronics.
    隧道磁阻磁头(TMR)技术和垂直写入磁头(PMR)技术的应用使得超高密度磁记录领域获得突破性的发展,迎合了硬盘在便捷式消费类产品中应用的小型化趋势。
  24. In recent years, ultrafine magnetic nanowires have attracted much attention due to their exciting application prospect in high-density perpendicular magnetic recording media.
    近年来,由于超细磁性纳米线阵列在超高密度垂直磁记录领域有着诱人的应用前景而引起国内外科研工作者的极大关注。
  25. The fabrication of the perpendicular recording media becomes the key step which will make the recording density closer to the theoretic value.
    如何使产品的记录密度进一步向理论极限值靠近,记录介质&垂直磁化膜的制备成了很重要的一个环节。
  26. Magnetic multilayers exhibiting perpendicular magnetic anisotropy ( PMA) have a extremely high value of research in perpendicular magnetic recording media as well as in perpendicular spin valves and magnetic tunnel junctions.
    在有关垂直磁记录介质以及垂直自旋阀和磁性隧道结的研究中,具有垂直磁各向异性的(PMA)的磁性薄膜具有很大的研究价值。
  27. Although the perpendicular recording product has shown his appearance in the market, its recoding density is much lower than the value predicted in theory.
    目前虽然已有垂直存储产品面市,但是其记录密度仍与理论上预测的记录密度相距甚远。
  28. Magnetic nanowire arrays, as an ideal candidate for future ultra-high density perpendicular recording media, are becoming the hotspot in modern magnetism field.
    磁性纳米线阵列,作为未来高密度垂直记录介质的理想选择,是当今磁学领域的热点。
  29. One of the key issues for density enhancement in perpendicular magnetic recording is the design and the preparation of high performance perpendicular films.
    提高垂直磁记录系统记录密度的一项关键技术是要设计和制备出高性能的垂直磁化膜。
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