Development of a Novel Supporting System for High Luminosity LHC SRF Crab Cavities

Jones, Thomas; Artoos, Kurt; Burt, Graeme; Calaga, Rama; Capatina, Ofelia; Capelli, Teddy; Sosin, Mateusz; Swieszek, Joanna; Zanoni, Carlo

doi:10.18429/JACoW-SRF2017-MOPB104

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RIS citation export for MOPB104: Development of a Novel Supporting System for High Luminosity LHC SRF Crab Cavities

TY - CONF
AU - Jones, T.J.
AU - Artoos, K.
AU - Burt, G.
AU - Calaga, R.
AU - Capatina, O.
AU - Capelli, T.
AU - Sosin, M.
AU - Swieszek, J.S.
AU - Zanoni, C.
ED - Schaa, Volker RW
ED - He, Yuan
ED - Li, Lu
ED - Zhao, Ning
TI - Development of a Novel Supporting System for High Luminosity LHC SRF Crab Cavities
J2 - Proc. of SRF2017, Lanzhou, China, July 17-21, 2017
C1 - Lanzhou, China
T2 - International Conference on RF Superconductivity
T3 - 18
LA - english
AB - Compact SRF Crab Cavities are integral to the HL-LHC upgrade. This paper details the design of support structures within the SPS (Super Proton Synchrotron) Crab Cavity Cryomodule. For ease of alignment each cavity is supported with the mechanical tuner and RF Fundamental Power Coupler (FPC) via a common support plate. To reduce heat leak and remove bellows in the FPC it was determined that this would be the fixed support for the cavity (V. Parma, 2013). In addition, novel flexural blades were designed to give increased stiffness yet allow for thermal contraction of the cavity towards the fixed point of the FPC. This approach was superior when compared via simulation to several alternative techniques. A detailed simulation model was used for optimisation of directional stiffness, identification of vibration modes and minimising thermal stresses. A transmission matrix was developed in MS Excel to assess modal deflection for given ground vibration conditions. The spreadsheet gives an instantaneous yet comparable result to time consuming random vibration FE Analyses. The final engineering design of the supporting system is now complete and will also be described in this paper.
PB - JACoW
CP - Geneva, Switzerland
SP - 304
EP - 308
KW - ion
KW - cavity
KW - cryomodule
KW - SRF
KW - interface
DA - 2018/01
PY - 2018
SN - 978-3-95450-191-5
DO - 10.18429/JACoW-SRF2017-MOPB104
UR - http://jacow.org/srf2017/papers/mopb104.pdf
ER -