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Status on the HYDE project

Status on the HYDE project. Collaboration: University of Huelva, Spain (coordinator) GSI-Darmstadt, Germany. University of Sevilla, Spain. CSIC-IEM Madrid, Spain. IKS-University of Leuven, Belgium. CRC Louvain la Neuve, Belgium. A. Soltan Institute for Nuclear Studies, Warsaw, Poland.

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Status on the HYDE project

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  1. Status on the HYDE project Collaboration: University of Huelva, Spain (coordinator) GSI-Darmstadt, Germany. University of Sevilla, Spain. CSIC-IEM Madrid, Spain. IKS-University of Leuven, Belgium. CRC Louvain la Neuve, Belgium. A. Soltan Institute for Nuclear Studies, Warsaw, Poland. H. Niewodniczandki Institute of Nuclear Physics PAN, Krakow, Poland. Present support: FAZIA collaboration CEA-Saclay

  2. Detection techniques: • - E1 : gas/monolithic Si-10m. • - E2 : DSSD 40 m. • E : Single PAD 2 mm. • Pulse shape analysis. • Time of flight. E1E2E The HYDE concept • Physics at 3-20 MeV/u  should we include up to 100 MeV/u??: • Direct Nuclear Reactions, Clustering, Fusion Evaporation, • Deep Inelastic, etc. Beam: - Large emitance > 20 mmmrad. - Low intensity <107 pps. • Goals: • - Charged particles. • Good charge and mass identification. • Efficiency (>60%). • - Good energy resolution (<300 keV). • Angular resolution (<2º). HYDE • Status and perspectives 2006-2008: • - Preliminary concept design. • - Simulations GEANT4. • Status and funding.

  3. 600mm ? 600mm? 600mm ? 300mm AGATA chamber 300mm 300mm Preliminary concept design Target - Handy design  modular system

  4. 20 18 50 50 16 9Be4+ 14 40 40 12 EDSSSD / MeV 30 30 10 8 6Li3+ 20 20 6 4 4He2+ 10 10 2 1H+ 0 0 10 20 30 40 50 60 Etotal / MeV 20 18 16 9Be4+ 14 12 EDSSSD / MeV 10 8 6Li3+ 6 4 4He2+ 2 1H+ 0 0 10 20 30 40 50 60 Etotal / MeV Simulations GEANT4 <E> = 5 MeV/u EFWHM = 3 MeV/u  = 20  mm mrad x,yFWHM= 3 cm Track1 DSSSD (40 m) 1 m Track2 DSSSD (40 m) 2 m scattering = 30° FWHM = 2 ° 3.1% 1H+ 11.1% 4He2+ 10.7% 6Li3+ 12.9% 9Be4+ at the target 208Pb 1 mg/cm2 DSSSD (40 m) + PAD (2 mm)

  5. HYDE: R&D STAGE 2006-2007 • PRESENT STATUS • Materials por Charge Particle identification, position sensitive (up to 100 MeV/u ?): Solid state detectors Si + CsI Pulse shape analysis  beyond S, Cl Gas detectors: HYDE/Tracking CEA/Saclay- E.C. Pollaco Diamond monocristal  GSI ?? • Simulations  D. Rodríguez (Physics, LPC Caen /Univ. Huelva) • Technical: Mechanics & design: J.A. Bernal (Engineer, C.N.A collaboration, Sevilla) F. Pizarro (Engineer, DFA, Univ. Huelva) Electronics& DACQ: R. Berjillos (Engineer, DFA, Univ. Huelva) J.L. Flores (Physics, DIEISA, Univ. Huelva) COLLABORATION: SCHOOL OF ENGINEERS (UHU) FAZIA Collaboration R. Bougault /LPC-Caen

  6. R&D STAGE 2006-2007/FUNDING • HYDE DETECTOR: • Current period 2006: • - Materials/Instruments/Travelling: • about 20 k€ from present running projects • 1 year contract for electronic engineer (Spanish Research Council-MEC) • Period 2007-2009: • Application to Spanish Research Council (MEC) (HUELVA & SEVILLA) • Pulse shape analysis • Detector materials • 3) Development of tracking detectors • 4) Related experiments and collaborations • - Materials/Traveling: 160 k€ / • - Man power: 210 k€ /3 years contract for: • 1 Engineer • 1 Postdoc • 1 PhD student. • LOW ENERGY TRACKING: • Current period 2006: • 1 Postdoc (physics) • Experiments at Tandem with present equipment are foreseen for 2006. • Period 2007-2009: • Application to Spanish Research Council (MEC) (SEVILLA & HUELVA): • 1) Construction of a beam line for low energy tracking • 2) Related experiments and collaborations • - Materials/Travelling: 150 k€ • Man power: 210 k€ /3 years contract for: • 1 Engineer • 1 Postdoc • 1 PhD student

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