MOIO  —  Accelerator facility projects with cooling methods application   (12-Sep-11   10:00—19:00)

Paper Title Page
MOIO01 Electron Cooling Performance at IMP Facility 1
 
  • X. D. Yang, W. P. Chai, H. Jia, G. H. Li, J. Li, P. Li, X. M. Ma, L. J. Mao, R. S. Mao, M. T. Song, T. L. Yan, J. C. Yang, D. Y. Yin, Y. J. Yuan, W. Zhang, X. H. Zhang, T. C. Zhao, W. H. zheng
    IMP, Lanzhou
 
  The ion beam of 58Ni19+ with the energy of 6.39MeV/u was accumulated in the main ring of HIRFL-CSR with the help of electron cooling. The related angle between ion and electron beams in the horizontal and vertical planes was intentionally created by the steering coils in the cooling section after maximized the accumulated ion beam in the ring; the radial electron intensity distribution was changed by the ratio of potentials of grid electrode and anode of the electron gun, the different electron beam profiles were formed from solid to hollow in the experiments. In these conditions, the maximum accumulated ion beam intensity in the 10 seconds was measured, the lifetime of ion beam was measured, the momentum spread of the ion beam varying with particle number was measured during the ion beam decay, the power coefficient was derived from these data, in additional, the momentum spread in the case of constant particle number was plotted with the angle and electron beam profile. The oscillation and shift of the central frequency of the ion beam were observed during the experiments. The upgrade and improvement in the CSRm cooler and the progress in the CSRe cooler were presented. These results were useful to attempt the crystal beam forming investigation in the CSR.  
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MOIO02 NICA Project at JINR 6
 
  • I. N. Meshkov
    JINR, Dubna, Moscow Region
 
  Status of the project of Nuclotron-based Ion Collider fAcility NICA/MPD (MultiPurpose Detector) under development at JINR (Dubna) is presented. The general goals of the project are providing of colliding beams for experimental studies of both hot and dense strongly interacting baryonic matter and search for the mixed phase and critical endpoint. Spin physics experimental studies in collisions of polarized protons (deuterons) are planned as the second stage of the project. The first program requires providing of heavy ion collisions in the energy range of squrt(s) = 4-11 GeV at average luminosity of L = 1·1027 cm-2 s-1 for Au79+. The polarized beams mode is proposed to be used in energy range of squart(s) = 12-27 GeV (protons) at luminosity of L = 1·1030 cm-2 s-1. The key issue of the project is application of both stochastic and electron cooling methods at the NICA collider. The latter will be used in the NICA Booster for preliminary formation of the ion beam. The report contains description of the facility scheme and characteristics in heavy ion operation mode, the discussion of luminosity life time limitations, status and plans of the project development.  
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MOIO03 Current Plans for Beam Cooling at FAIR 10
 
  • M. Steck
    GSI, Darmstadt
 
  For the efficient production of secondary beams in the new FAIR accelerator complex beam cooling is a technique of outstanding importance. In the first stage of the FAIR project, the Modularized Start Version, stochastic cooling will be employed in the pre-cooling and accumulation of antiprotons. In a later stage the stochastic pre-cooling will also be applied to rare isotope beams. Further upgrades will be the installation of a dedicated antiproton accumulator ring and the use of electron cooling to provide ion beams, both stable ions and rare isotopes, for experiments with stored ions of highest phase space density. An overview of the current activities in beam cooling will be given.  
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MOIO04 Beam Cooling at HESR in the FAIR Project  
 
  • D. Prasuhn, J. Dietrich, A. Lehrach, B. Lorentz, R. Maier, R. Stassen, H. Stockhorst
    FZJ, Jülich
 
  The High Energy Storage Ring (HESR) at the FAIR accelerator facility in Darmstadt will accumulate and accelerate anti-protons in the energy range between 1.5 GeV/c and 15 GeV/c. The design is optimized to fulfill the requirements of the internal experiment PANDA. For accumulation and to fulfill the demanding requirements of the experiment concerning momentum spread, and for the required long beam lifetime both electron and stochastic cooling are necessary. Simulation results and prototype measurements of the stochastic cooling equipment and simulations of the high energy electron cooling concept will be presented.  
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MOIO05 Status of the 2 MeV Electron Cooler for COSY/HESR 15
 
  • J. Dietrich, V. Kamerdzhiev
    FZJ, Jülich
  • M. I. Bryzgunov, A. D. Goncharov, V. M. Panasyuk, V. V. Parkhomchuk, V. B. Reva, D. N. Skorobogatov
    BINP SB RAS, Novosibirsk
 
  The 2 MeV electron cooling system for COSY-Juelich was proposed to further boost the luminosity even in presence of strong heating effects of high-density internal targets. The project is funded since mid 2009. The design and construction of the cooler is accomplished in cooperation with the Budker Institute of Nuclear Physics in Novosibirsk, Russia. The 2 MeV cooler is also well suited in the start up phase of the High Energy Storage Ring (HESR) at FAIR in Darmstadt. It can be used for beam cooling at injection energy and is intended to test new features of the high energy electron cooler for HESR. The infrastructure necessary for the operation of the cooler in the COSY ring (radiation shielding, cabling, water cooling etc.) is established. The electron beam commissioning at BINP Novosibirsk is scheduled to start at May of 2011. First results are reported. Final commissioning at COSY-Juelich is planned for the end of 2011.  
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MOIO06 Recent Status of Beam Cooling at S-LSR 19
 
  • A. Noda, M. Nakao, H. Souda, H. Tongu
    Kyoto ICR, Uji, Kyoto
  • T. Fujimoto, S. I. Iwata, S. Shibuya
    AEC, Chiba
  • M. Grieser
    MPI-K, Heidelberg
  • I. N. Meshkov, A. V. Smirnov, E. Syresin
    JINR, Dubna, Moscow Region
  • K. Noda, T. Shirai
    NIRS, Chiba-shi
  • H. Okamoto
    HU/AdSM, Higashi-Hiroshima
 
  At S-LSR in ICR, Kyoto University, approaches to multi-dimensional laser cooling of Mg ions with the use of synchro-betatron coupling has been applied in addition to the realization of one dimensional ordering of 7 MeV proton beam with application of an electron beam cooling. In the present paper, recent results of transverse cooling of bunched beam will be presented together with an aproach to provide a short bunch 7 MeV proton beam with a high peak current to make bio-medical irradiation of biological cells.  
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MOIO07 Application of Cooling Methods to NICA Project 25
 
  • G. V. Trubnikov
    JINR, Dubna, Moscow Region
 
  Application of cooling methods a NICA project  
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