Ultra-High Gradient Compact S-Band Linac for Laboratory and Industrial Applications Metadata

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Title

  • Main Title Ultra-High Gradient Compact S-Band Linac for Laboratory and Industrial Applications

Creator

  • Author: Faillace, Luigi
    Creator Type: Personal
  • Author: Tech., /RadiaBeam
    Creator Type: Personal
  • Author: Agustsson, Ronald
    Creator Type: Personal
  • Author: Tech., /RadiaBeam
    Creator Type: Personal
  • Author: Frigola, Pedro
    Creator Type: Personal
  • Author: Tech., /RadiaBeam
    Creator Type: Personal
  • Author: Murokh, Alex
    Creator Type: Personal
  • Author: Tech., /RadiaBeam
    Creator Type: Personal
  • Author: Dolgashev, Valery
    Creator Type: Personal
  • Author: /SLAC
    Creator Type: Personal
  • Author: Rosenzweig, James
    Creator Type: Personal
  • Author: /UCLA
    Creator Type: Personal

Contributor

  • Sponsor: United States. Department of Energy. Office of Science.
    Contributor Type: Organization
    Contributor Info: US DOE Office of Science (DOE SC)
  • Sponsor: SBIR
    Contributor Type: Organization

Publisher

  • Name: SLAC National Accelerator Laboratory
    Place of Publication: United States
    Additional Info: SLAC National Accelerator Laboratory (SLAC)

Date

  • Creation: 2012-07-03

Language

  • English

Description

  • Content Description: There is growing demand from the industrial and research communities for high gradient, compact RF accelerating structures. The commonly used S-band SLAC-type structure has an operating gradient of only about 20 MV/m; while much higher operating gradients (up to 70 MV/m) have been recently achieved in X-band, as a consequence of the substantial efforts by the Next Linear Collider (NLC) collaboration to push the performance envelope of RF structures towards higher accelerating gradients. Currently however, high power X-band RF sources are not readily available for industrial applications. Therefore, RadiaBeam Technologies is developing a short, standing wave S-band structure which uses frequency scaled NLC design concepts to achieve up to a 50 MV/m operating gradient at 2856 MHz. The design and prototype commissioning plans are presented.

Subject

  • Keyword: Standing Waves Accelerators,Accphy
  • Keyword: Linear Colliders
  • STI Subject Categories: 43 Particle Accelerators
  • Keyword: Linear Accelerators
  • Keyword: Accelerators,Accphy
  • Keyword: Design
  • Keyword: Accelerators
  • Keyword: Commissioning
  • Keyword: Performance
  • Keyword: Communities

Source

  • Journal Name: Conf.Proc.C100523:THPEA059,2010; Conference: 1st International Particle Accelerator Conference: IPAC'10, 23-28 May 2010, Kyoto, Japan

Collection

  • Name: Office of Scientific & Technical Information Technical Reports
    Code: OSTI

Institution

  • Name: UNT Libraries Government Documents Department
    Code: UNTGD

Resource Type

  • Article

Format

  • Text

Identifier

  • Report No.: SLAC-PUB-15147
  • Grant Number: AC02-76SF00515
  • Office of Scientific & Technical Information Report Number: 1045194
  • Archival Resource Key: ark:/67531/metadc842104

Note

  • Display Note: http://www.slac.stanford.edu/cgi-wrap/pubpage?slac-pub-15147.html
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