accelerating field
2.In the analysis, we take the electrostatic accelerating tube as an example, and divide the electrostatic accelerating tube into three elements: entrance thin lens, uniform accelerating field and exit thin lens, on which Lie map is applied, and the solutions through third order of particle orbits are obtained finally.
3.In particle-beam field, the most intriguing applications of the nanotubes-rope channeling are connected with the possibility of particle acceleration in high gradient accelerating field, and with the possibility of construction of TeV colliders.
4.The equation of electron trajectory in a drifting tube filled with plasma under weak accelerating field was given in this paper , the traveling properties of electron beam in a and β area were also obtained. By means of digital calculation , the pattern of electron beam transmission was described as that electrons traveled like a wave around the equilibrium radius , and the period and scope of the wave were related to plasma parameters ,voltage and field inten- sity.
7.Accelerating-convergence Approach for Solving a Steady Viscous Flow Field through the Use of a Time-marching Method
8.Abstract: Based on the previous paper, for accelerating charge in general relativity, we obtained the exact expressions of electromagnetic field and radiating energy.
9.This article introduces the fundamental theory of inclined electrostatic field inthe HI-13 tandem accelerator and the beam optics in the accelerating tube,describes the arrangement of the electrodes in the terminal area.
10.In particle-beam physics field, the most intriguing applications of the nanotubes-rope- channeling are connected with the possibility of particle acceleration in high gradient accelerating fields, and with the possibility of construction of TeV colliders.
