A   B   C   D   E   F   G   H   I   J   K   L   M   N   O   P   Q   R   S   T   U   V   W   X   Y   Z  

Kutsaev, S.V.

Paper Title Page
TUPEC053 Hellweg 2D Code for Electron Dynamics Simulations 1841
 
  • S.V. Kutsaev
    MEPhI, Moscow
 
 

This paper introduces "Hellweg 2D" code, a special tool for electron dynamics simulation in waveguide accelerating structure. The underlying theory of this software is based on the numerical solutions of differential equations of particle motion. The effects considered in this code include beam loading, space charge forces, external focusing magnetic field. "Hellweg 2D" is capable to deal with multisectional accelerators. Along with a manual input of electrodynamical parameters of the cells, for disk-loaded structures they can be calculated automatically with a help of experimental data tables. In order to obtain the maximum capture in the buncher section, the optimizer of phase velocity and electric field strength functions is developed. The comparison of U-1-M buncher beam dynamics simulations via "Hellweg 2D" and experimental data is provided.

 
THPEA036 Stabilization of the Polarization Plane in Traveling Wave Deflectors 3759
 
  • N.P. Sobenin, A. Anisimov, I.I.V. Isaev, S.V. Kutsaev, M.V. Lalayan, A.Yu. Smirnov
    MEPhI, Moscow
  • A.A. Zavadtsev, D.A. Zavadtsev
    Nano, Moscow
 
 

New possibilities of the polarization plane stabilization in the traveling hybrid TM11 wave deflectors are considered in this paper. These possibilities are realized in two new structures: DLW with two peripheral recesses in cells and DLW with oval aperture. In terms of electro-dynamic parameters, thermal regimes and manufacturing technology these structures as well as a classical structure with two stabilizing holes show some advantages and some disadvantages. The advantages of the new structures are good RF mode separation and effective cooling. The specifics of such structures tuning are also described.