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Nergiz, Z.

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THPMN064 Luminosity Upgrade of CLIC-LHC ep/gp Collider 2853
 
  • H. Aksakal, A. K. Ciftci, Z. Nergiz
    Ankara University, Faculty of Sciences, Tandogan/Ankara
  • D. Schulte, F. Zimmermann
    CERN, Geneva
 
  An energy-frontier or QCD-exploring ep and gp collider can be realized by colliding high-energy photons generated by Compton back-scattered off a CLIC electron beam, at either 75 GeV or 1.5 TeV, with protons or ions stored in the LHC. In this study we discuss a performance optimization of this type of collider by tailoring the parameters of both CLIC and LHC. An estimate of the ultimately achievable luminosity is given.  
FROBC01 30 GHz High-Gradient Accelerating Structure Test Results 3818
 
  • J. A. Rodriguez, G. Arnau-Izquierdo, R. Corsini, S. Doebert, R. Fandos, A. Grudiev, I. Syratchev, M. Taborelli, F. Tecker, P. Urschutz, W. Wuensch
    CERN, Geneva
  • H. Aksakal, Z. Nergiz
    Ankara University, Faculty of Sciences, Tandogan/Ankara
  • M. Johnson
    UU/ISV, Uppsala
  • O. M. Mete
    Ankara University, Faculty of Engineering, Tandogan, Ankara
 
  The CLIC study is high power testing accelerating structures in a number of different materials and accelerating structure designs to understand the physics of breakdown, determine the appropriate scaling of performance and in particular to find ways to increase achievable accelerating gradient. The most recent 30 GHz structures which have been tested include damped structures in copper, molybdenum, titanium and aluminum. The results from these new structures are presented and compared to previous ones to determine dependencies of quantities such as achievable accelerating gradient, pulse length, power flow, conditioning rate and breakdown rate.  
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