Phase and Frequency Locked Magnetrons for SRF Sources 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 Phase and Frequency Locked Magnetrons for SRF Sources
Creator
-
Author: Neubauer, M.Creator Type: Personal
-
Author: Johnson, R. P.Creator Type: Personal
-
Author: Popovic, M.Creator Type: Personal
-
Author: Moretti, A.Creator Type: Personal
Contributor
-
Sponsor: United States. Department of Energy.Contributor Type: Organization
Publisher
-
Name: Fermi National Accelerator LaboratoryPlace of Publication: Batavia, IllinoisAdditional Info: Fermi National Accelerator Laboratory (FNAL), Batavia, IL
Date
- Creation: 2009-05-01
Language
- English
Description
- Content Description: Magnetrons are low-cost highly-efficient microwave sources, but they have several limitations, primarily centered about the phase and frequency stability of their output. When the stability requirements are low, such as for medical accelerators or kitchen ovens, magnetrons are the very efficient power source of choice. But for high energy accelerators, because of the need for frequency and phase stability - proton accelerators need 1-2 degrees source phase stability, and electron accelerators need .1-.2 degrees of phase stability - they have rarely been used. We describe a novel variable frequency cavity technique which will be utilized to phase and frequency lock magnetrons.
- Physical Description: 3 pages
Subject
- Keyword: Magnetrons
- Keyword: Ovens
- Keyword: Phase Stability
- STI Subject Categories: 43 Particle Accelerators
- Keyword: Protons
- Keyword: Stability Accelerators
- Keyword: Electrons
- Keyword: Accelerators
- Keyword: Accelerators
Source
- Conference: Presented at Particle Accelerator Conference (PAC 09), Vancouver, BC, Canada, 4-8 May 2009
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.: FERMILAB-CONF-09-202-AD
- Grant Number: AC02-07CH11359
- Office of Scientific & Technical Information Report Number: 956739
- Archival Resource Key: ark:/67531/metadc932449