Dynamics in Imperfectly Isochronous Ffag Accelerators. Metadata
Metadata describes a digital item, providing (if known) such information as creator, publisher, contents, size, relationship to other resources, and more. Metadata may also contain "preservation" components that help us to maintain the integrity of digital files over time.
Title
- Main Title Dynamics in Imperfectly Isochronous Ffag Accelerators.
Creator
-
Author: Berg, J. S.Creator Type: Personal
Contributor
-
Sponsor: United States. Department of Energy. Office of Energy Research.Contributor Type: OrganizationContributor Info: USDOE Office of Energy Research (ER) (United States)
Publisher
-
Name: Brookhaven National LaboratoryPlace of Publication: Upton, New YorkAdditional Info: Brookhaven National Lab., Upton, NY (United States)
Date
- Creation: 2002-06-03
Language
- English
Description
- Content Description: Using FFAGS for the arcs of recirculating accelerators has the potential to achieve significant cost savings over a multiple-arc design. However, no FFAG arc will have the same path length over its entire energy range. This leads to problems with synchronizing high-frequency RF with the beam on each pass. It has been demonstrated [1] that in fact a reference particle can be accelerated in such a system for an arbitrary number of turns, although the amount of linac required for a given energy gain never falls below a certain nonzero value for a larger number of turns. Here we examine that system in more generality, and begin to address longitudinal phase space acceptance.
- Physical Description: 3 pages
Subject
- Keyword: Energy Range
- STI Subject Categories: 43 Particle Accelerators
- Keyword: Linear Accelerators
- Keyword: Accelerators
- Keyword: Phase Space
- Keyword: Design
Source
- Conference: EUROPEAN PARTICLE ACCELERATOR CONFERENCE EPAC 2002, PARIS (FR), 06/03/2002--06/07/2002
Collection
-
Name: Office of Scientific & Technical Information Technical ReportsCode: OSTI
Institution
-
Name: UNT Libraries Government Documents DepartmentCode: UNTGD
Resource Type
- Article
Format
- Text
Identifier
- Report No.: BNL--69321
- Grant Number: AC02-98CH10886
- Office of Scientific & Technical Information Report Number: 799482
- Archival Resource Key: ark:/67531/metadc743204