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Badano, L.

Paper Title Page
MOPC080 Status of the FERMI@Elettra Photoinjector 247
 
  • M. Trovo, L. Badano, S. Biedron, D. Castronovo, F. Cianciosi, P. Craievich, G. D'Auria, M. B. Danailov, M. Ferianis, S. V. Milton, G. Penco, L. Pivetta, L. Rumiz, D. Wang
    ELETTRA, Basovizza, Trieste
  • H. Badakov, A. Fukasawa, B. D. O'Shea, J. B. Rosenzweig
    UCLA, Los Angeles, California
  • M. Eriksson, D. Kumbaro, F. Lindau
    MAX-lab, Lund
 
  The new FERMI@Elettra photoinjector is presently undergoing high-power testing and characterization at MAX-Lab in Lund Sweden. This effort is a collaboration between Sincrotrone Trieste, MAX-Lab and UCLA. The 1.6-cell RF gun cavity and the focusing solenoid were successfully designed and built by the Particle Beam Physics Laboratory at UCLA, delivered to Sincrotrone Trieste at the beginning of 2008, and installed in the linac tunnel at MAX-Lab. Use of the MAX-Lab facility will allow the FERMI project to progress significantly with the photoinjector while waiting for the completion of the new linac building extension at Sincrotrone Trieste. We report here on the high-power conditioning of the RF cavity and the first beam tests. Furthermore, a preliminary characterization of the 5 MeV beam will also be presented.  
TUPC004 The Diagnostic Line of Elettra Booster 100MeV Pre-injector 1044
 
  • S. Bassanese, L. Badano, M. Bossi, A. Carniel, G. Ciani, S. Di Mitri, M. Ferianis, G. Mian, G. Penco, M. Veronese
    ELETTRA, Basovizza, Trieste
 
  In order to fully characterize the beam of the new 100MeV linac pre-injector for the Elettra Booster, a standard diagnostic set-up has been designed which includes strip line BPMs, scintillating screens and current transformers. During the initial tuning of the pre-injector, a thermo-ionic gun followed by a 500MHz pre bunching cavity, an S-band bunching structure and two LIL accelerating sections, some extra diagnostics have been used to get a deeper understanding of the pre-injector operating point. In particular some prototypes of the FERMI@elettra diagnostics, installed on the same booster pre-injector, have been used to better characterize the beam transverse and longitudinal beam axis. An improved resolution screen system, equipped with a YAG screen, has been used as well as a wideband longitudinal pick-up. The measurement results as well as the tuning procedure are here presented.  
TUPC079 Beam Emittance Measurement for the New Full Energy Injector at ELETTRA 1236
 
  • G. Penco, L. Badano, S. Bassanese, G. Ciani, P. Craievich, S. Di Mitri, M. Ferianis, M. Predonzani, M. Veronese
    ELETTRA, Basovizza, Trieste
  • A. A. Lutman
    DEEI, Trieste
 
  An emittance measurement station was set up and operated with the quadrupole scan technique to characterize the electron beam transverse phase space at the Elettra laboratory. The diagnostic station, based on a YAG:Ce scintillation screen imaged by a CCD digital camera, was installed at the end of the 100 MeV booster pre-injector together with a beam longitudinal structure monitor. This equipment plays an important role for the bunching system optimization and for the optical matching of the injection transfer line to the booster ring. Experimental results and comparison with multi-particle tracking codes simulation are presented in this paper.