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Autor(en) / Beteiligte
Titel
High power breakdown testing of a photonic band-gap accelerator structure with elliptical rods
Ist Teil von
  • Physical review special topics. PRST-AB. Accelerators and beams, 2013-01, Vol.16 (1), p.012005, Article 012005
Ort / Verlag
United States: American Physical Society
Erscheinungsjahr
2013
Quelle
PROLA
Beschreibungen/Notizen
  • An improved single-cell photonic band-gap (PBG) structure with an inner row of elliptical rods (PBG-E) was tested with high power at a 60 Hz repetition rate at X-band (11.424 GHz), achieving a gradient of 128  MV/m at a breakdown probability of 3.6×10^{-3} per pulse per meter at a pulse length of 150 ns. The tested standing-wave structure was a single high-gradient cell with an inner row of elliptical rods and an outer row of round rods; the elliptical rods reduce the peak surface magnetic field by 20% and reduce the temperature rise of the rods during the pulse by several tens of degrees, while maintaining good damping and suppression of high order modes. When compared with a single-cell standing-wave undamped disk-loaded waveguide structure with the same iris geometry under test at the same conditions, the PBG-E structure yielded the same breakdown rate within measurement error. The PBG-E structure showed a greatly reduced breakdown rate compared with earlier tests of a PBG structure with round rods, presumably due to the reduced magnetic fields at the elliptical rods vs the fields at the round rods, as well as use of an improved testing methodology. A post-testing autopsy of the PBG-E structure showed some damage on the surfaces exposed to the highest surface magnetic and electric fields. Despite these changes in surface appearance, no significant change in the breakdown rate was observed in testing. These results demonstrate that PBG structures, when designed with reduced surface magnetic fields and operated to avoid extremely high pulsed heating, can operate at breakdown probabilities comparable to undamped disk-loaded waveguide structures and are thus viable for high-gradient accelerator applications.
Sprache
Englisch
Identifikatoren
ISSN: 1098-4402
eISSN: 1098-4402
DOI: 10.1103/PhysRevSTAB.16.012005
Titel-ID: cdi_doaj_primary_oai_doaj_org_article_786d56137a944f378fda34e0aef18a09
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