微磁学

  • 网络micromagnetics;Micromagnetic;FFTM
微磁学微磁学
  1. 用微磁学方法对磁性纳米颗粒膜的磁特性进行了模拟,采用的模型是由122个磁性纳米颗粒组成的面心立方(fcc)结构体系。

    The nano-granular magnetic films were investigated using the micromagnetics method in this paper . The nano-granular magnetic film model studied consisted of an aggregate of 122 spherical nano-granules with an fcc structure .

  2. 利用微磁学的方法,在考虑电流产生的奥斯特场的情况下,研究了垂直膜面方向的电流对磁性隧道结MTJ的自由层磁化状态的影响。

    The effect of current-induced Oersted field on magnetization reversals in magnetic tunneling junction was studied by micromagnetics simulation .

  3. 二维无规混合磁性系统磁特性的微磁学及MonteCarlo研究

    Micromagnetism and Monte Carlo Simulation of Magnetism of a Two-Dimension Diluted System

  4. 混合磁性薄膜矫顽力及阶梯效应的微磁学及MonteCarlo研究

    Study on the coercivity and step effect of mixed magnetic films by micromagnetism and Monte Carlo simulation

  5. 提出了一种具有快速傅立叶变换的微磁学(FFTM)方法,并应用于二维纳米磁性系统。

    A calculation method based on fast Fourier transformation and micromagnetism ( FFTM ) is presented .

  6. 利用微磁学的有限元法,模拟计算了样品的磁滞回线。

    The magnetic hysteresis loops are simulated by micromagnetism finite element method .

  7. 磁性颗粒膜色散关系和弛豫研究磁性纳米颗粒膜的微磁学模拟

    Micromagnetics study of the magnetic nano-granular films

  8. 快速傅立叶变换微磁学方法

    A Fast Fourier Transformation Micromagnetism Method

  9. 然后重点介绍了蒙特卡罗方法和快速傅立叶变换微磁学方法。

    Afterward , we chiefly introduce Monte Carlo method and fast Fourier transformation and micromagnetism ( FFTM ) .

  10. 若损伤层主要由位错组成,按微磁学理论和双磁振子散射模型可得到位错密度、磁致伸缩、磁化强度等与线宽的关系。

    Supposing that the damaged layer is mainly composed of high density dislocations , a relation between the FME linewidth anisotropy and the magnetostriction constants is deduced based on micromagnetism theory and the two-magnon scattering process .

  11. 本文基于建立的物理计算模型,首先利用传输线方法和微磁学理论对铁磁自由层中信号场和磁化强度分布进行了计算,优化了材料性能参数;

    Based on the physics computation model in this work , we firstly calculated the signal field and magnetization distribution in free layer using transmittance line model and micro-magnetic theory , and then we discussed the effect of size and magnetic parameters on the magnetic flux and signal field ;

  12. Co掺杂SnO2纳米粉的微结构和磁学性质

    Microstructure and Magnetic Properties of Cobalt-Doped SnO_2 Nano-Powders

  13. Ag层厚度对NiCo/Ag多层膜的微结构及磁学性能的影响

    Influence of Silver Layer Thickness on Microstructure and Magnetic Properties of NiCo / Ag Multilayers