1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass(...
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Transcript of 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass(...
![Page 1: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/1.jpg)
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Geant4 Simulation :MCP PET
4’’(102mm)
Scintillator( LSO)
4’’(102mm)
10mm
Glass( Borosilicate)
PhotocathodeI(Carbon)
Space(Vacuum)
MCP(Alumina)
Space(Vacumm)
Trans-Line(Gold)
Isolator(Alumina)
Ground(Copper)
Scintillator
MCP Assembly
MCP Assembly
0.060’’
0.002’’
0.040’’
0.200’’
0.040’’
0.035mm
0.400mm
0.025mm
Air Gap 0.001’’
9.15mm
![Page 2: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/2.jpg)
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Simulation Setup
113.2mm
28.3mm
102m
m(4
’’)
511keV 2 gamma
50mm
Scintillator : LSO, LaBr3
![Page 3: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/3.jpg)
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# of photoelectron at photo-cathode
•# of p.e at 1st layer•Sum of 2 sides( front and back)•371 for LSO 976 for LaBr3( ~2.6 times larger than LSO)•LaBr3 has more compton scattering events.
# of p.e ( LSO) LaBr3
![Page 4: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/4.jpg)
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Single Electron Responses
1. Pulse Shape ~500ps rise time(top) ( real measurement by J-F, 18 p.e) similar value for falling time assume asymmetric gausian shape
2. Average gain factor : 10e6 Single electron gain ~70% in FWHM.
3. Transit Time Spread sigma = 50ps.
Simulated pulse shape
real measurement
![Page 5: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/5.jpg)
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Readout Scheme
TL direction
Front Side( -> Extract X cor) Back Side(-> Extract Y cor)
•Readout signals from 24 horizontally (vertically) running TLs. • TL : 4mm width, 4.25mm pitch.•Total 384(24 TL x 2 ends/TL x 2 sides x 4layers) channels for a module.
•Position : 5 TL energy weight •Energy : Sum of two sides( e.g, 5 TL sum w.r.t the maximum for each side)•Timing : Average of maximum TL from each side.
![Page 6: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/6.jpg)
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Sample pulses(LaBr3)
TL#7 TL#8 TL#9
TL#10 TL#11 TL#12
TL#13 TL#14 TL#15
Layer#0Front sideOne end.# of p.e = 259
Beam:Middle of TL#11 & TL#12
mV
ns
![Page 7: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/7.jpg)
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Pulse( close-up) ( LaBr3)
mV
ns
TL#11 TL#12
![Page 8: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/8.jpg)
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Energy resolution(LaBr3)
pC
Sum of 5 TLs( around the maximum)
Integrated Charge.10^6 gain50ohm termination.
~24% of effi.Around 511keV peak.( > 130pC)
~9% FWHMEnergy resol. at 511keV.
![Page 9: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/9.jpg)
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Position(LaBr3)
A) X = 0mm B) X = 2.125mm C) X = 4.25mm
Recon. X(peak) 0.05mm 2.14mm 4.24mm
A) Beam X = 0mm B) Beam X = 2.125mm C) Beam X = 4.25mm
Position : Energy weighted of 5 TLs (w.r.t the maximum energy TL.)
![Page 10: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/10.jpg)
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Coincidence Timing resolution(LaBr3)
Event time:Average of 4 timing1. Finid first non-zero signal layer.2. Find maximum signal TL.3. Apply 5mV threshold, Leading Edge.
Top: ~1ns FWHM ( ~62% eff.)Before energy cut
Bottom : 375ps FWHM ( 6.7% eff.)Select the event around 511keV energy.Energy > 130( pC)
![Page 11: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/11.jpg)
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Summary
1. Four layers of MCPs+Scintillator
2. Continuous Scintillator( 4’’x4’’)
( LaBr3 , LSO)
3. 4.25mm pitch ( 4.0+0.25) of TLs.
4. Energy : ~9% at 511keV
CoincidenceTiming : ~375ps ( ~7% effi.)
![Page 12: 1 Geant4 Simulation :MCP PET 4’’(102mm) Scintillator ( LSO) 4’’(102mm) 10mm Glass( Borosilicate) PhotocathodeI(Carbon) Space(Vacuum) MCP(Alumina) Space(Vacumm)](https://reader036.fdocuments.us/reader036/viewer/2022062322/5697bf731a28abf838c7ee7d/html5/thumbnails/12.jpg)
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Backup: Pulse shape( LSO)
Layer#0Front sideOne end.# of p.e = 90
Beam:Middle of TL#11 & TL#12