SoLID Baffle and Background Update Zhiwen Zhao UVa 2013/05/23.

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Presentation transcript:

SoLID Baffle and Background Update Zhiwen Zhao UVa 2013/05/23

PVDIS challenge High luminosity (1.27e 39 /cm2/s for 50uA on 40cm LD2 target) causes high rate and high energy dose on detectors Baffle shields low energy EM photons directly from target while low energy electrons are bent away by field Most interesting physics at high Q2 and high x needs DIS electrons with highest energy which bend least and fly like photons, so comprise is needed Positive pions contribute in background at trigger level and are better to be suppressed

Design Condition SoLID latest CLEOv8 field map 30 sectors with each sector covering 12 deg each plate is 9cm thick lead Z (40, 68, 96, 124, 152, 180) cm no overlap with current setup Rin (4.00, 12.86, 23.61, 34.36, 45.10, 55.85)cm Rout (39.60, 59.94, 80.28, , , )cm Optimized for polar angle deg acceptance of full 40cm long target with center at 10cm, except the first baffle inner radius needs to be at 4cm instead of 2cm to avoid more EM background 3

Current Baffle (Smaller Z baffle cut inner) Continue with Seamus’s approach, but take all design conditions into account – refer to 4

General acceptance negativeneutral positive 30% 20% 5% 20% eDIS acceptance 40% 50%

Apv Error 50uA 85% polarized 11GeV beam on 40cm LD2 for 120 days Trigger at 2GeV BaBar field and baffle, from proposal CLEO field and baffle, from proposal

Trigger effect ApvErrtrigger (GeV) 0.17,0.24,0.36,0.38,0.42,0.39,0.48,0.44,0.56,0.51,0.66,0.64,0.75,0.70, ,0.26,0.36,0.40,0.42,0.40,0.48,0.44,0.56,0.51,0.66,0.64,0.75,0.70, ,0.31,0.37,0.62,0.45,0.51,0.48,0.51,0.56,0.54,0.66,0.65,0.75,0.70, ,0.37,0.39,0.96,0.42,0.74,0.48,0.65,0.56,0.65,0.66,0.75,0.75,0.74, ,0.43,0.43,1.46,0.44,1.03,0.48,0.86,0.56,0.80,0.66,0.89,0.75,0.83, ,0.84,0.63,0.00,0.56,9.22,0.56,2.83,0.60,2.14,0.68,1.97,0.75,1.40, trigger 2.0 trigger 2.3 ApvErr at large Q2 and large x starts to increase if trigger > 2GeV 7

Trigger effect ApvErrtrigger (GeV) 0.28,0.32,0.38,0.63,0.42,0.52,0.49,0.52,0.57,0.55,0.67,0.66,0.75,0.72,0.68p<2.0, r(110cm – 270cm) 1.90,0.58,0.44,0.72,0.43,0.53,0.49,0.52,0.57,0.55,0.67,0.66,0.75,0.72,0.68 p<3.0, r(110cm – 140cm) p<2.5,r(140cm – 170cm) p<2.0, r (170cm – 270cm) 0.52,0.42,0.41,0.72,0.43,0.53,0.49,0.52,0.57,0.55,0.67,0.66,0.75,0.72,0.68p<2.5, r(110cm – 170cm) p<2.0, r(170cm – 270cm) p<2.0, r(110cm – 270cm) p<2.5, r(110cm – 170cm) p<2.0, r(170cm – 270cm) This could an option for trigger

Background, baffle effect

Hit on EC in R(physics+background)

Hit on EC in Phi(physics+background)

GEM geometry

PVDIS GEM id Z (cm) PVDIS target centerPVDIS target full R range (cm) Area (m2) R range (cm) Area (m2) total CLEO coil center at 0. PVDIS 40cm long target with center at 10cm PVDIS angle degree Considering the CLEO baffle, plane 1 and 2 are directly behind baffle and only need partial coverage (70-80%?), plane 3 and 4 are between Cherenkov and EC and need full coverage To cover full target, GEM needs to increase by 30% 13

SIDIS/JPsi GEM id Z (cm) SIDIS target centerSIDIS target fullJPsi target center R range (cm) Area (m2) R range (cm) Area (m2) R range needed (cm) Area needed (m2) Area addition to “SIDIS target center” (m2) Area addition to “SIDIS target full” (m2) total (4.5%) (1.4%) CLEO coil center at 0. Plane (1,2,3,4) cover large angle and plane (2,3,4,5,6) cover forward angle SIDIS 40cm long target with center at -350cm, SIDIS angle degree JPsi 15cm long target with center at -300cm tentatively, JPsi angle degree Jpsi coverage is only optimized by target center as it’s length is smaller GEM size determined by “Jpsi target center” inner and “SIDIS target full” outer PVDIS has more than enough GEM for SIDIS/JPsi to cover full target 14

backup

Design Detail Common – use SoLID CLEOv8 field map – 30 sectors with each sector covering 12 deg – Still each plate is 9cm thick of lead – SCALE MIN=1.4, MAX=1.4, LASTBAF=0. in makebaf5.C Larger Z baffle only – Z (40, 70, 100, 130, 160, 190) cm overlap with Cherenkov and leaves no room for GEM – Rin (3.90, 15.30, 26.60, 37.90, 49.20, 61.01)cm – Rout (41.31, 62.32, 83.32, , , )cm Not optimized for polar angle deg acceptance of full 40cm long target with center at 10cm Smaller Z baffle only – Z (40, 68, 96, 124, 152, 180) cm no overlap with current setup – Rin (2.11, 12.86, 23.61, 34.36, 45.10, 55.85)cm – Rout (39.60, 59.94, 80.28, , , )cm Optimized for polar angle deg acceptance of full 40cm long target with center at 10cm 16

Design approach from larger Z baffle to smaller Z baffle Continue with Seamus’s approach – In simulation, throw negative particles from target position with field, record tracks at different position – Then do linear fitting to figure out what kind of blocking should be at the assumed baffle plates position. – Output the opening (not block) – refer to Fix a bug of detector plane position in the input file Change Z, Rin, Rout to the desired values 17

eDIS rate