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Kurnyshov, R.V.

Paper Title Page
WEPLS093 3D Field Computation for the Main Prototype Magnets of the SIS100 Accelerator of the FAIR Project 2592
 
  • P.A. Shcherbakov
    IHEP Protvino, Protvino, Moscow Region
  • E. Fischer
    GSI, Darmstadt
  • R.V. Kurnyshov
    Electroplant, Moscow
 
  Fast cycling superferric magnets are planned for use in the new international accelerator Facility for Antiprotons and Ion Research (FAIR) at GSI, Darmstadt. The dipoles and quadrupoles have to provide the required field quality from the injection field of 0.25T and 4.3T/m up to the maximum values of 2.1T and 35T/m respectively. The complex 3D magnetic field distribution due to the longitudinal component Bz near the yoke end regions and the presence of eddy currents also in the bulk construction elements as well as in a mechanical stable beam pipe design can create unacceptable static and dynamic nonlinearities. The detailed knowledge of these effects is necessary to control the field quality for all operating cycles to be provided by the SIS100 accelerator. We discuss the methodical problems of 3D finite element calculations (ANSYS) of the local and the integral nonlinearities, considering also the problems caused by the various nonlinear and anisotropic material properties and by the structure elements of the yoke and beam pipe. The calculated integral static and the affected by eddy currents harmonic coefficients are presented.  
WEPLS094 3D Magnetic Field and Eddy Current Loss Calculations for Iron Dominated Accelerator Magnets using ANSYS Compared with Results of Noncommercial Codes 2595
 
  • P.A. Shcherbakov
    IHEP Protvino, Protvino, Moscow Region
  • E. Fischer
    GSI, Darmstadt
  • R.V. Kurnyshov
    Electroplant, Moscow
 
  The design of fast ramped superferric magnets with repetition rates in the order of 1Hz requires reliable software tools to calculate the complex 3D magnetic field quality as well as the impact of eddy current and hysteresis loss. Various technological construction details should be taken into account to obtain a high field quality. We present a methodical study of these questions based on ANSYS calculations for simplified dipole models. The details of these analysis are compared with recently published results obtained by different special codes, i.e. an integral and the FIT method. The time dependences of eddy current power due to longitudinal magnetic field component at the yoke ends, the transient field distribution in the yoke volume and the total eddy current loss are investigated, choosing the identical geometry with the same magnetic and electric properties of the lamination steel used by the other codes. The conclusions for the application potential of the different methods are discussed.  
WEPLS091 Analysis of the Superferric Quadrupole Magnet Design for the SIS100 Accelerator of the FAIR Project 2586
 
  • E. Fischer, G. Moritz
    GSI, Darmstadt
  • H.G. Khodzhibagiyan, A.D. Kovalenko
    JINR, Dubna, Moscow Region
  • R.V. Kurnyshov, P.A. Shcherbakov
    IHEP Protvino, Protvino, Moscow Region
 
  The heavy ion fast-cycling synchrotron SIS100 is the "workhorse", of the future Facility for Antiproton and Ion Research FAIR at GSI in Darmstadt. The main lattice parameters of the accelerator are defined now so the main engineering problems of the new superferric magnets should be analyzed and solved too. We present the results of finite element calculations and compare them with the experimental data from investigation of the model magnets to characterize the expected AC loss properties of the full length prototype quadrupole. We discuss the appropriate new coil structure aimed at minimizing the heat releases at 4.5 K, but providing the requested long-term mechanical stability against dynamic Lorentz forces and thermal cooling cycles as well.