Physical model of slow electron scattering in the field of atomic and molecular collision,suggested by professor Gou Qingquan, is explored and discussed The physical model is successful and important.

Monte Carlo method is used to simulate energies and space distributions of low-energy electrons scattering(E_0≤5 keV) in Ni,NiTi and Ti bulks.

, Part 1: Simulations on electrons scattering in Al,Ti alloy-plies; Part 2: Mechanical characters of fullerene & fullerene polymeric molecules.

The physical model of electron scattering is based on the us.

An electron scattering model is proposed to explain the polarization of AGN(active galactic nuclei) in terms of its specific geometry and particle distribution,for example,Seyfert galaxy.

First of all, the paper gives summary and analysis the theoretical knowledge of the resolution, electron scattering and electro-optical calculation.

Emission of the backscattered electrons from ultra-thin film on substrate under the action of low-energy beams;

Using Monte Carlo method, both emission and spatial distributions of the backscattered electrons(BSEs) of the solids Al,Cu,Ag,Au under the action of low energy electrons with energy E 0≤5*!keV have been simulated and calculated.

The spatial distribution of backscattered electron in solids have been calculated by Monte Carlo method, based on Mott cross-seCtion for elastic scattering as well as Streitwolf,Quirm and Gryzinski s cross-section for inelastic scattering.