电子平均自由程

  • 网络electron mean free path
电子平均自由程电子平均自由程
  1. 轴平行磁场中金属性纳米碳管的电子平均自由程公式

    A Universal Expression of the Electron Mean Free Path for Metallic Carbon Nanotubes in an Axial Magnetic Field

  2. )、S(2p)峰强度的变化规律,讨论了膜内分子有序排列引起的散射效应对电子平均自由程的影响。

    We also gave explanation to the influence of scattering effect caused by the ordered molecular orientation on the inelastic mean free path .

  3. 弗兰克-赫兹实验中温度与电子平均自由程的关系

    Relation between temperature and mean free path in the Franck-Hertz experiment

  4. 改善AES/XPS深度剖析的一种方法:减小电子平均自由程对深度剖析的影响

    Reduction of Effects of Electron Mean Escape Length on AES / XPS Depth Profile

  5. 发现沟道电子平均自由程不随温度而改变,其值约为7.6nm;

    It was discovered that the channel electron mean-free path was temperature independent with a value of about 7.6 nm .

  6. 金属中自旋翻转散射长度远长于电子平均自由程,近来关于自旋翻转散射效应的研究主要集中于扩散区域。

    Because the spin-flip length is longer than the electron mean-free-path in a metal , past studies of spin-flip scattering were limited to the diffusive regime .

  7. 当银层厚度超过银的电子平均自由程时,一维纳米壳层体现出来的消光性能与相同尺寸的一维银纳米粒子相差无几。

    When the thickness of silver shells is more than the electronic mean free path of silver , the extinction property of one-dimensional silica / silver nanoshells will be identical to that of the one-dimensional silver nanoparticles with the same size .

  8. 给出ηE与电子非弹性平均自由程(IMFP)λ的函数关系,用ηE的实验值推算出λ。

    The funtional relation between η _E and the electron inelastic mean free path ( IMFP ) λ was gived and calculate IMFP by the experimental value of η _E .

  9. 本文测定了钾薄膜中能量为65、256和921eV的俄歇电子的非弹性平均自由程(IMFP)。

    The inelastic mean free paths ( IMFP ) of 65 , 256 and 921 eV Auger electrons in thin films of potassium have been determined .

  10. 钾薄膜中俄歇电子的非弹性平均自由程

    The Inelastic Mean Free Path of Anger Electrons in Thin Films of Potassium