• 1 FAIR - Baseline Technical Report
  • 2 FAIR. FAIR Green Paper - The Modularised Start Version
  • 3 The 70-MeV Proton Linac for the Facility for Antiproton and Ion Research FAIR. - Proceedings of the Linear Accelerator Conference LINAC, 186-188
  • 4 Antiproton complex at the FAIR project
  • 5 TDR - collector Ring (CR)
  • 6 Status of the FAIR Facility, Proceedings of IPAC13, Shanghai, China
  • 7 TDR - Recuperated Experimental Storage Ring (RESR)
  • 8 et el., Technical Design Report for the PANDA Solenoid and Dipole Spectrometer Magnets
  • 9 Day-1 experiment at PANDA for parameters of antiproton proton elastic scattering determination
  • 10 SPARC Collaboration: New Strategy for Storage Ring Physics at FAIR
  • 11 Observation of new charmonium state in double charmonium production in e+eannihilation at root(s) = 10.6 GeV
  • 12 Charmonium-like states at BABAR
  • 13 Properties of Exotic Charmoniumlike states at CDF [FERMILAB-Conf-09-331-E]
  • 14 Charmonium in China: BEPCII/BESIII, BES Collaboration
  • 15 B decays to charmonia at LHCb, LHCb Collaboration, PoS IHEP-LHC, 015
  • 16 (BESIII collaboration)
  • 17
  • 18 (BESIII collaboration)
  • 19 (BESIII collaboration)
  • 20
  • 21 (LHCb collaboration)
  • 22 TDR for the PANDA Internal Targets
  • 23 Brinkmann et al., TDR for the PANDA Micro Vertex Detector
  • 24 Technical Design Report for the PANDA Straw Tube Tracker,. 12 PANDA - Strong interaction studies with antiprotons 13 3 Design Considerations for the Forward Spectrometer Calorimeter 3.1 Engineering constraints The reconstruction efficiency of exclusive channels in pp annihilation has a strong dependence on the geometrical acceptance. The angular coverage of PANDA should be maximised to achieve close to 99 % 4π solid angle in the centre-of-mass system. The PANDA Forward Spectrometer electromagnetic Calorimeter (FSC) is optimised to detect photons and electrons within the energy range between 10 MeV and 15 GeV. It covers about only 0.74 % of the full solid angle, however the acceptance of the FSC for the inclusive photons production is almost 8 %. The dimensions of the FSC are determined by its position at ≈7 meters from the interaction point and by the size of the opening in the forward endcap of the Target Spectrometer EMC. The FSC is situated between the Forward TOF and the forward Muon Range System, thus the total depth of the FSC is limited by the overall length of the Forward