330 mm 290 mm 210 mm 60 mm 20 mm The magnet Beam through a hole of 75 mm in the yoke Pole gap: 90 mm.

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Presentation transcript:

330 mm 290 mm 210 mm 60 mm 20 mm The magnet Beam through a hole of 75 mm in the yoke Pole gap: 90 mm

beam V-shaped lead wall magnet Veto detector (scintillator) Status

magnet V-shaped lead wall + collimator with hole of 75 mm10 cm Pb beam Status

Veto detector (from LAND)

Distance to magnet coil = ?, minimization possible ? Status

Validation detector (Sofia) Plexiglass/Cu (Leuven) Beam (GSI)

Status : The validation detector

Investments 2005: (1) Leuven: * 317 Euro: Cu stopper foil (99.997% purity, annealed), 5 pieces of 2 mm thickness (10x10cm2, cut to 8x8 cm2) * 301 Euro: Pb-wall with hole of 75 mm diameter (2x 5 cm thick) * 970 Euro: 1mm thickness foils of Pb, Cu, Al for shielding of detectors adapted (bare detectors, short collimator, long collimator openings). * Euro: payment to GSI for running costs for g-RISING (invoice Hans-Juergen). * 100 Euro: plexiglass degraders (5 different thicknesses) + support degrader/stopper (2) Sofia: * 900 Euro: light guides for validation detector + construction (3) ILL, Grenoble: * 3000 Euro: magnetic field resistant PM tubes (4) Rossendorf: * 2500 Euro: stands for Cluster detectors (5) Bonn * Euro: support structure for the magnet + detectors and other equipment for our g-RISING campaign (payment to GSI as running costs)

Magnet Power supply Digital Hall probe Meter DTM PC With labview program for remote control Of both systems S4 areaControl room Write field value+sign via network to data acquisition buffers RS232 C Connector 26 pins RS232 C Connector 26 pins 2 RS232 9 pins Network card in PC Option 1: 2 RS232 cables between S4 and Control room

245 mm diameter mm 102 mm