Document Type
Report
Publication Date
8-15-2001
Publisher
University of Nevada, Las Vegas. Department of Mechanical Engineering.
Publisher Location
Las Vegas (Nev.)
First page number:
1
Last page number:
4
Abstract
Multipacting is one of the major loss mechanisms in rf superconductivity cavities for accelerators. This loss mechanism limits the maximum amount of energy/power supported by the cavities. Optimal designs have been identified in others’ studies. In practice, these designs are not easily manufactured. Chemical etching processes used to polish the cavity walls result in a nonuniform surface etch compromising the optimal geometrical design. Past multipacting studies have not examined the impact of wall perturbations.
It is the purpose of this study to examine the chemical etching process in the design of niobium cavities so to maximize the surface quality of the cavity walls while minimizing the multipacting losses. Single and multiple cavity cell geometries are to be investigated. Optimization techniques will be applied in search of the chemical etching processes, which will lead to cavity walls with near ideal properties.
Keywords
Elliptical cells; Holes; Linear accelerators; Niobium cavities; Niobium – Surfaces; Radio frequency; Resonant radio frequency; Surface preparation; Surfaces (Technology); Superconducting radio frequency; Superconductivity
Controlled Subject
Linear accelerators; Radio frequency; Superconductivity
Disciplines
Electrical and Computer Engineering | Mechanical Engineering | Metallurgy | Nuclear Engineering
File Format
File Size
106 KB
Language
English
Rights
IN COPYRIGHT. For more information about this rights statement, please visit http://rightsstatements.org/vocab/InC/1.0/
Repository Citation
Schill, R. A.,
Trabia, M.
(2001).
Modeling, Fabrication, and Optimization of Niobium Cavities – Phase I: Quarterly Progress Report May 15, 2001 - August 15, 2001.
1-4.
Available at:
https://digitalscholarship.unlv.edu/hrc_trp_sciences_materials/4
Included in
Electrical and Computer Engineering Commons, Mechanical Engineering Commons, Metallurgy Commons, Nuclear Engineering Commons