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IHEP group Shashlyk activity towards TDR

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Presentation on theme: "IHEP group Shashlyk activity towards TDR"— Presentation transcript:

1 IHEP group Shashlyk activity towards TDR
28 Jan 2005 IHEP group Shashlyk activity towards TDR Pavel Semenov IHEP, Protvino on behalf of the IHEP PANDA group PANDA collaboration meeting, GSI 2-6 March 2009

2 Pavel Semenov, PANDA collaboration meeting, GSI
28 Jan 2005 Outline Mechanical design of the calorimeter Assembling and maintenance MC simulations Last run results 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

3 Overall design of the FS EMC
27x14 modules (4cells each) Massive closed frame Back plate to fix modules in Z direction (modules position from one side and photodetectors from the other side of the plate ) Accelerator pipe hole (2x2 modules) shifted from the center Dedicated rail system for maintenance procedure 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

4 Pavel Semenov, PANDA collaboration meeting, GSI
Detector sizes Active zone 2970x1540 mm2 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

5 Shashlyk module tail stucture
Two types of possible mounting of the module: 4 tubes or 1 screw 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

6 Pavel Semenov, PANDA collaboration meeting, GSI
Shashyk module sizes 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

7 Calorimeter assembling
Modules installation: layer by layer, positioning each module according to the back plate holes 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

8 Calorimeter assembling (press bars)
Press bars to minimize the gap between modules and fix positions 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

9 Calorimeter at the maintenance position
To provide a possibility of Shashlyk maintenance A dedicated extensible rail system is proposed. Calorimeter can be shifted out to the left or the right side of the Forward Spectrometer. At the working position it fixed by lock pins with high precision 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

10 Pavel Semenov, PANDA collaboration meeting, GSI
Calorimeter rollers 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

11 Fast MC (photons energy distribution)
All photons energy (upper curve) over photons at the Shashlyk aperture (color curves) 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

12 Time between energy depositions (one cell)
Near pipe Detector vertical edge 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

13 Pavel Semenov, PANDA collaboration meeting, GSI
Testbeam setup DC1 M14 DC2 DC3 DC4 ECAL Target Beam S3 S2 S1 St SA Spectrometer consisted of 4 drift chamber stations and a magnet to measure beam particle momentum precisely Calorimeter prototype Al target at 1.5m and 3 m before the prototype 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

14 Testbeam results for 1.5 m (more sophisticated analysis)
Shower profile fit, Charged hadrons removed (drift chamber), Rough calorimeter calibration π0 1-2 GeV, σm 12.5 MeV Next steps: Precise calibration, All data analysis, Big and small cell performance comparison 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

15 Open questions to answer before TDR
Shashlyk module length Size of the cell (55 mm vs 110 mm) Readout electronics Full MC 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

16 Pavel Semenov, PANDA collaboration meeting, GSI
Backup slides 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

17 Registered neutral pions energies at 3 m target position
2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

18 Energy and position resolution in “big” modules
σE /E = 3.5/E  2.8/√E  1.3 [%], E in GeV σx = 13.1/√E  4.0 [mm], E in GeV 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

19 New prototype parameters
64 cells (16 supermodules) assembled in matrix 380 layers of 0.3-mm lead and 1.5-mm scintillator, total length 680 mm Transverse size 55x55 mm2 Effective Moliere radius: RM=59 mm Effective radiation length: X0=34 mm Total radiation length: 20X0 Light collection: 36 fibers BCF-91A (1.0 mm) 2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

20 Prototype modules production
2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

21 Prototype testbeam setup
2-6 March 2009 Pavel Semenov, PANDA collaboration meeting, GSI

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