SCECAL progress report Tohru Takeshita (Shinshu) _DESY Beam Test summary _improvements for FNAL BT _FNAL module _current status at Fermilab.

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Presentation transcript:

SCECAL progress report Tohru Takeshita (Shinshu) _DESY Beam Test summary _improvements for FNAL BT _FNAL module _current status at Fermilab

small prototype at DESY 9x2 strips / layer x 26 (468ch) 1cm x 4.5cm x 0.3cm strip fibre in a hole without fibre MPPC read out 9cm MPPC calice08-TT

results at DESY 3 detector configurations stripuniformitylight X-talk Megagood10% direct r/o extrudedneed studygood MPPCMPPC 45mm0mm calice08-TT MIP ped. opt. xtalk. Mega Kuraray KNU with fibre without fibre

extruded scintillator one of the mysteries significant non-uniformity due to TiO2 shield and mis-alignment of fibre and MPPC MPPCMPPC 45mm0mm without TiO2 wrapped by reflector calice08-TT 1mm0mmp.e. uniform strip

modified ext. scint. without TiO2 shield MPPC 1x1 mm 2 fibre 1 mmz mega-strip extruded-strip calice08-TT

energy resolution detector center is a singular point shower leakage without saturation correction calice08-TTall corrections mega extruded direct

MPPC saturation MPPC response saturates by big amount of light input it exceeds the number of MPPC pixels =1600 due to quick recovery 2000p.e. 1000p.e. LED blue light no sign up to 6GeV DESY 1-6GeV 80 MPPCs 1-6 GeV calice08-TT linearity

MPPC saturation saturation correction deposit E / strip response -bigger at EM shower central -energy distribution will be wider than that measured (central part will shift, however others remain) shape of the curve depends on the electronics (integration time,,,) calice08-TT

linearity saturation correction improves linearity before correctionsaturation corrected without/with saturation correction

energy resolution with/without saturation correction saturation correction makes it worse, because of broadening the distribution saturation correction calice08-TTsaturation correction

EM shower shape longitudinal and lateral EM shower shape longitudinal layer # lateral x (cm) x calice08-TT

EM shower width in one dimension x calice08-TT

simulation non uniformity in a strip Xtalk between neighboring strips saturation effect calice08-TT mega direct extruded mega color : data, black : MC

simulation (cont.) closed: data open:MC calice08-TT

scecal FNAL BT x4 bigger ECAL than DESY : prototype 18cm x 18cm x 30 layers (2160ch) extruded scintillators w/o TiO2 shield precise positioning of MPPC monitoring system moved mid August started DAQ calice08-TT

extruded scintillator hole size and location > precise positioning by selection flip Entries 69 Mean RMS Entries 69 Mean RMS hole size hole location calice08-TT 1mm

construction of scecal scintillator fiber reflector frame read out flat cable cover calice08-TT MPPC reflector scintillator fiber reflector MPPC fixed by reflector

pre-test results light output by source calice08-TT Distance from MPPC (mm) Three samples number of p.e xxx MPPC p.e.

μ relative position MPPC and fibre required precision : within 0.1mm in transverse / longitudinal direction m p.e. longitudinaltransverse 1mm

MPPC 2000 MPPC new : May old : Dec 2006 tested, they all Ok for the detector Vbreakdown (V) new old serial number by Hamamatsu new Vb(V) some are missing

prototype scecal structure W 3.5mm scint. 3mm 18 x 4 lows tungsten scintillator strip

monitoring system light injection through clear fiber with notches Optical fiber 0.2mm deep notch0.4mm deep notch LED scintillator strips 0.4mm deep VCALIB:150 p.e. 0.2mm deep VCALIB:255 p.e. strip # holes Optical fiber

FNAL BT purpose test at High energy : MPPC saturation effect verify monitoring system pi-zero reconstruction put an Iron target of 8cm 0.1% of triggers at high E r+ by MC r+r+ r + n 7 pr 0

at FNAL construction test assembly

at FNAL (cont.) pedestals LED run MIP calibration by muon electron pion/proton

calice08-TT