HES Status Report Jun ‘07

1. HES Status ReportJun ‘07 contents HES Resolution Study EDC EDC1, HDC EDC2 Position Study others

2. Try to improve HES resolution • Apply Kato formula to EQ1 and EQ2 • Use uniform field map as ED • Use randomized magnetic field • Change B.M order (now using 8th B.M) • Tilt = 0 deg setup Everything is Not effective!

3. Resolution : Comparing w/ HKS w/o Fujii’s Method, dx=80mm, dy=280mm HES Simulation HKS Simulation Angular resolution is important for QQD system!? if true … EDC2 plays quite important role for HES resolution (only EDC1, angular resolution is not good enough)

4. EDC1 Position Study EQ1, EQ2 is same strength Momentum distribution Beam Profile @ z=151cm EDC1 Sensitive area GeV/c

5. EDC2 Position Study d Sensitive Area • EDC1 … 100(w)*12(H)*32(T) • EDC2 … 120(w)*30(H)*2(T) 100cm 120cm 3”=7.6cm 47.8cm HDC EDC sxEDC = 80mm syEDC = 280mm sxEDC = 150mm(?) syEDC = 150mm(?) FP = 135cm from ED

6. Geant4 Update • Include EQ1, EQ2 vacuum chamber • Correct the distance between EQ2 and ED (60cm to 80cm) • Improve Primary Generation file selector • EDC include/not include selector in input file • Use CVS?

7. Sieve Slit Study 1 • Placed at 30cm from EQ1 entrance • No Material, just a Virtual Detector • hole radius = 2mm, interval = 2cm

8. Sieve Slit Study 2

9. ED Magnetic Field Changed! Bdl : 3.54→3.08 ?? Bdl seems to depend on the model meshing Now under investigation …

10. Next to do • Calculate New FoM, including Collimator • Sieve Slit Study • Resolution improvement • Beam intensity, vp yield • Separation efficiency, Angular (Momentum?) Resolution • Include HDC • Field MAP upgrade