Transverse wakefield analysis for the NLC & JLC detuned structures on a parallel computer

Author

Zhan, Xiaowei ; Kwok Koi

Author_Institution

SCCM Program, Stanford Univ., CA, USA

Volume

2

fYear

1997

fDate

12-16 May 1997

Firstpage

2589

Abstract

The detuned structure (DS) has been proposed as one possible design to control the emittance growth of long bunch trains in linear colliders due to transverse wakefields. A DS typically consists of over a hundred cells with tapering from cell to cell of the order of few microns to decohere the dipole modes. The design parameters are targeted for two orders of magnitude reduction in the wakefield experienced by the trailing bunch. Field analysis of such a large heterogeneous structure is impractical with finite-difference schemes using structured grids. This paper presents the results from calculations performed on a parallel computer using a finite-element code based on an unstructured grid. We discuss the parallel implementation issues and show comparisons between simulation results and the wakefield data taken on both the NLC and JLC detuned structures

Keywords

accelerator cavities; electron accelerators; linear colliders; mesh generation; parallel algorithms; particle beam dynamics; physics computing; JLC; NLC; detuned structure; detuned structures; dipole modes; finite-element code; large heterogeneous structure; linear colliders; parallel computer; trailing bunch; transverse wakefield analysis; Acceleration; Colliding beam accelerators; Computational modeling; Concurrent computing; Finite difference methods; Finite element methods; Geometry; Iron; Linear accelerators; Solid modeling;

fLanguage

English

Publisher

ieee

Conference_Titel

Particle Accelerator Conference, 1997. Proceedings of the 1997

Conference_Location

Vancouver, BC

Print_ISBN

0-7803-4376-X

Type

conf

DOI

10.1109/PAC.1997.751283

Filename

751283