Higher Order Modes Damping Analysis for the SPX Deflecting Cavity Cryomodule

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A single-cell superconducting deflecting cavity operating at 2.812 GHz has been proposed and designed for the Short Pulse X-ray (SPX) project for the Advanced Photon Source upgrade. A cryomodule of 4 such cavities will be needed to produce the required 2-MV deflecting voltage. Each deflecting cavity is equipped with one fundamental power coupler (FPC), one lower order mode (LOM) coupler, and two higher order mode (HOM) couplers to achieve the stringent damping requirements for the unwanted modes. The damping of the HOM/LOM modes below the beampipe cutoff has been analyzed in the single cavity geometry and shown to meet the ... continued below

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Xiao, L.; Li, Z.; Ng, C.-K.; Nassiri, A.; Waldschmidt, G.; Wu, G. et al. July 1, 2012.

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A single-cell superconducting deflecting cavity operating at 2.812 GHz has been proposed and designed for the Short Pulse X-ray (SPX) project for the Advanced Photon Source upgrade. A cryomodule of 4 such cavities will be needed to produce the required 2-MV deflecting voltage. Each deflecting cavity is equipped with one fundamental power coupler (FPC), one lower order mode (LOM) coupler, and two higher order mode (HOM) couplers to achieve the stringent damping requirements for the unwanted modes. The damping of the HOM/LOM modes below the beampipe cutoff has been analyzed in the single cavity geometry and shown to meet the design requirements. The HOMs above beam pipe cutoff in the 4-cavity cyromodule, however, may result in cross coupling which may affect the HOM damping and potentially trapped modes between the cavities which could produce RF heating to the beamline bellows and even be detrimental to the beam. We have evaluated the HOM damping and trapped modes in the 4-cavity cryomodule using the parallel finite element EM code ACE3P developed at SLAC. We will present the results of the cryomodule analysis in this paper.

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  • IPAC 2012, 20-25 May 2012, New Orleans, Louisiana

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  • Report No.: JLAB-ACC-12-1528
  • Report No.: DOE/OR/23177-2280
  • Grant Number: AC02-06CH11357
  • Office of Scientific & Technical Information Report Number: 1048125
  • Archival Resource Key: ark:/67531/metadc835408

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  • July 1, 2012

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  • May 19, 2016, 9:45 a.m.

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  • June 3, 2016, 5:15 p.m.

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Xiao, L.; Li, Z.; Ng, C.-K.; Nassiri, A.; Waldschmidt, G.; Wu, G. et al. Higher Order Modes Damping Analysis for the SPX Deflecting Cavity Cryomodule, article, July 1, 2012; Menlo Park, California. (digital.library.unt.edu/ark:/67531/metadc835408/: accessed May 22, 2018), University of North Texas Libraries, Digital Library, digital.library.unt.edu; crediting UNT Libraries Government Documents Department.