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Shashlik type calorimeter for SHIP experiment

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Presentation on theme: "Shashlik type calorimeter for SHIP experiment"— Presentation transcript:

1 Shashlik type calorimeter for SHIP experiment
Vladimir Poliakov Institute for High Energy Physics, Protvino, Russia SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

2 V.Poliakov, Shashlik calorimeter
Outline The COMPASS experiment Requirement and motivation Design of spiral Shashlik module MC and beam test results of the Shashlik prototype Mass production of Shashlik modules Proposal for SHIP experiment SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

3 The COMPASS experiment Common Muon Proton Apparatus for Structure and Spectroscopy
Muon beam: data taking , Intensity 2x108 spill Hadron beam: data taking , 2012 Intensity 5x107 spill 2nd spectrometer Second electromagnetic calorimeter (GAMS-4000 detector, since 1980 at CERN, NA12 and WA102) dimension: 2.6 x 2.0 m2,; 3068 channels; Spiral Shashlik and lead glass blocks, 38x38 mm2; SM2 magnet 1st spectrometer ECAL2 SM1 magnet 50 m First electromagnetic calorimeter dimension: 4.0 x 2.9 m2,; 1708 channels, spiral Shashlik and lead glass blocks 38x38 mm2, lead glass blocks 75x75 mm2, 142x142 mm2; central hole 0.76x0.46 m2; angular acceptance 180x130 mrad ECAL1 SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

4 350 days running, hadron beam 190 GeV, 5.0107/spill
Rad 400rad 2 krad 4000 Need 900 additional rad hard blocks 400 40 SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

5 COMPASS requirements for radhard calorimeter:
Radiation hardness  500 krad Energy range  1÷190 GeV Energy resolution  Radiation thickness  23 X0 Uniformity  1÷2% for angular range 0-40mrad Module size  38.2x38.2 mm2 Module length  450 mm PWO crystals – very high price, radiation instability for low doses; Shashlik calorimeter – bad energy resolution and uniformity for small angles (up to 50mrad) SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

6 V.Poliakov, Shashlik calorimeter
ZEUS Shashlik EM-calorimeter; NIM A: 450 (2000) no. 2-3, pp ~25% ~15% e±, p,n SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

7 Spiral Shashlik module
SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

8 Spiral Shashlik module
Dimensions x38.2 mm2 Radiation length 17.5mm Moliere radius 36mm Radiation thickness X0 Scintillator thickness 1.5mm Lead thickness 0.8mm Radiation hardness 0.5 Mrad Energy resolution 6.5%/√E 1% PMT read out FEU-84 Electronics 12 bit sampling ADC, design TUM Munich SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

9 V.Poliakov, Shashlik calorimeter
Spiral Shashlik Sampling – 0.8 mm lead and 1.5 mm scintillator; 4x4 fibers, 4 steel rods; 160 layers 4 types of scintillators and lead plates 2mm 22.50 1.4mm 1mm SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

10 Energy resolution (T9 and H4 beam tests)
σE/E = a/√E b σE/E = a/√E b c/E SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

11 Energy resolution (T9 and H4 beam tests)
120 GeV σE/E = 1.14% 2 GeV σE/E = 4.23% SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

12 Uniformity, 4GeV electrons
SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

13 Uniformity, 70GeV electrons
SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

14 CFD time resolution st ≈ 0.9 ns Real data 3068 channels
Amplitude cut: 20 ADC channels ≈ 600 MeV 18 March 2010 COMPASS collaboration meeting, Venice

15 V.Poliakov, Shashlik calorimeter
SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

16 Profile for 10 GeV photons
RM = 36 mm SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

17 V.Poliakov, Shashlik calorimeter
Mass production IHEP facilities - the production of molded scintillators by the injection molded technique. Online control: The spread of light yield for scintillators is less than 3% The spread of the thickness of lead is less than 80μk ( 10%) Measurements of light yield and attenuation length for each spiral Shashlik modules Attenuation length > 1.7m Light yield > 400 photoelectrons per MIP Production speed – 300 modules per month (1 shift per day, 1 machine) SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

18 IHEP Scintillator Facilities
SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

19 V.Poliakov, Shashlik calorimeter
Mould Scintillators 600 plates per shift SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

20 V.Poliakov, Shashlik calorimeter
SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

21 Proposal Shashlik type calorimeter
Dimensions 500x500 cm2 Granularity Center 200x200 cm cells (3.83x3.83 cm2) Periphery cells (7.66x7.66 cm2) Radiation length 17.5mm Moliere radius 36mm Radiation thickness X0 Scintillator thickness 1.5mm Lead thickness 0.8mm Radiation hardness 0.5 Mrad Energy resolution 6.5%/√E 1% Read out PMT or SiPM SHIP workshop, 11 June 2014 V.Poliakov, Shashlik calorimeter

22 Signal Time extraction
Input signal Input signal x 2 Difference B[i] B[i] = A[i] – 2 A[i+N] B[i+1] Signal detection conditions: B[i] > 0 B[i+1]≤ 0 B[i]-B[i+1] > 20 ADC channels (600 MeV) Fine Time calculation 18 March 2010 COMPASS collaboration meeting, Venice Igor Konorov


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