A   B   C   D   E   F   G   H   I   K   L   M   O   P   Q   R   S   T   U   V   W  

kaon

Paper Title Other Keywords Page
TUXKI01 Advances in High Power Targets target, proton, factory, radiation 676
 
  • H. G. Kirk
  High power targets are one of the major issues for both neutron sources and neutrino factories. The paper will review status of studies worldwide, including those at JPARC and SNS etc. Results from the MERIT liquid-jet Hg target experiment at CERN will also be covered.  
slides icon Slides  
 
TUXKI03 Neutrino and Other Beam-Lines at J-PARC target, proton, hadron, background 686
 
  • T. Ishida
  The T2K project, the next-generation long base-line neutrino oscillation experiment to explore neutrino mass and mixing (further CPV), is one of the main motivations to construct J-PARC, The Japan Proton Accelerator Research Complex at Tokai. It will employ the 50 GeV proton synchrotron to produce neutrino super-beam, and a 50 kt water Cherenkov neutrino detector at Kamioka mine, Super-Kamiokande, as a far neutrino detector. The baseline length of 295 km. The neutrino beam-line is in the midst of its apparatus production and civil construction, towards the beam commissionning scheduled in April 2009. One of the main features of the beam-line is that the axis of the beam optics is displaced by a few degrees from the far detector direction to produce a narrower and lower neutrino energy spectrum than that of conventional on-axis beam. Our beam-line design makes it possible to adjust the off-axis angle, i.e. neutrino beam energy, to maximize neutrino oscillation effect. In this talk I will also briefly introduce other econdary beam-lines at J-PARC, the hadron beam lines and neutron and muon beam lines.  
slides icon Slides  
 
WEPMN080 Development of Circuits and System Models for the Synchronization of the ILC Crab Cavities controls, beam-loading, linac, target 2215
 
  • A. C. Dexter
  • C. D. Beard, P. Goudket, A. Kalinin, L. Ma, P. A. McIntosh
    STFC/DL/ASTeC, Daresbury, Warrington, Cheshire
  • G. Burt, R. G. Carter, R. O. Jenkins, M. I. Tahir
    Cockcroft Institute, Lancaster University, Lancaster
  Funding: The Commission of the European Communities under the 6th Framework Programme (Structuring the European Research Area) The UK particle physics and astromony research council.

The ILC reference design report (RDR) recommends a 14 mrad crossing angle for the positron and electron beams at the IP. A matched pair of crab cavity systems are required in the beam delivery system to align both bunches at the IP. The use of a multi-cell, 3.9GHz dipole mode superconducting cavity, derived from the Fermilab CKM cavity. Dipole-mode cavities phased for crab rotation are shifted by 90 degrees with respect to similar cavities phased for deflection. Uncorrelated phase errors of 0.086 degrees (equivalent to 61fs) for the two cavity systems, gives an average of 180nm for the relative deflection of the bunch centers. For a horizontal bunch size of 655nm, a deflection of 180nm reduces the ILC luminosity by 2%. The crab cavity systems are to be placed ~28m apart and their synchronization to within 61fs is on the limit of what is presently achievable. This paper describes the design and testing of circuits and control algorithms under development at the Cockcroft Institute in the UK for proof of principle experiments planned on the ERLP at Daresbury and on the ILCTA test beamline at FNAL. Simulation results for measurement and control systems are also given.

 
 
WEPMN105 Fast Thermometry for Superconducting RF Cavity Testing superconducting-RF, radio-frequency, higher-order-mode, instrumentation 2280
 
  • D. F. Orris
  • L. Bellantoni, R. H. Carcagno, H. Edwards, E. R. Harms, T. N. Khabiboulline, S. Kotelnikov, A. Makulski, R. Nehring, Y. M. Pischalnikov
    Fermilab, Batavia, Illinois
  Funding: Work supported by Universities Research Association Inc. under Contract No. DE-AC02-76CH03000 with the United States Department of Energy.

Fast readout of strategically placed low heat capacity thermometry can provide valuable information of Superconducting RF (SRF) cavity performance. Such a system has proven very effective for the development and testing of new cavity designs. Recently, several RTDs were installed in key regions of interest on a new 9 cell 3.9 GHz SRF cavity with integrated HOM design at FNAL. A data acquisition system was developed to read out these sensors with enough time and temperature resolution to measure temperature changes on the cavity due to heat generated from multipacting or quenching within power pulses. The design and performance of this fast thermometry system will be discussed along with results from tests of the 9 cell 3.9GHz SRF cavity.

 
 
THPAN005 Short Quadrupole Parametrization quadrupole, focusing, beam-transport, simulation 3229
 
  • A. Baartman
  • D. Kaltchev
    TRIUMF, Vancouver
  Funding: National Research Council (Canada)

The Enge function can be used to parametrize any element with well-defined edges. If an element is too short, however, there is no unambiguous definition of the effective edge. We first demonstrate that very little fringe field detail is needed to obtain accurate maps even up to fifth order. Then we go on to show a simple fitting algorithm that works well for short as well as long quadrupoles. The results are true whether the quads are magnetic or electrostatic.