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Data Analysis Working Group. AGATA Tasks of the WG Schedule. Johan Nyberg, ADAWG meeting, June 12-13, 2003, NBI. AGATA The A dvanced Ga mma-Ray T racking A rray. Next “big” European 4 -array for NS studies at Radioactive beam facilities: GSI, GANIL, SPES, … EURISOL - PowerPoint PPT Presentation
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Data Analysis Working Group
• AGATA
• Tasks of the WG
• Schedule
Johan Nyberg, ADAWG meeting, June 12-13, 2003, NBI
AGATA The Advanced Gamma-Ray Tracking Array
• Next “big” European 4-array for NS studies at– Radioactive beam facilities: GSI, GANIL, SPES, … EURISOL
– High intensity stable beam facilities: LNL, Jyväskylä, ...
• Based on years of worldwide R&D on -ray tracking• Collaboration of 10 EU countries
– Funded by national agencies and by EU
• Constructed in phases– Demonstrator 2003 · · · 2007– Phases of Full Array · · ·
The AGATA Collaboration• Bulgaria: Univ. Sofia
• Denmark: NBI Copenhagen
• Finland: Univ. Jyväskylä
• France: GANIL Caen, IPN Lyon, CSNSM Orsay, IPN Orsay,CEA-DSM-DAPNIA Saclay, IReS Strasbourg
• Germany: HMI Berlin, Univ. Bonn, GSI Darmstadt, TU Darmstadt,
FZ Jülich, Univ. Köln, LMU München, TU München
• Italy: INFN/Univ. Padova, Milano, LNL,Firenze, Camerino, Napoli, Genova
• Poland: NINP & IFJ Krakow, SINS Swierk, HIL & IEP Warsaw
• Romania: NIPNE & PU Bucharest
• Sweden: KTH Stockholm, Lund University, Uppsala University
• UK: CLRC Daresbury, Univ. Brighton, Keele, Liverpool,Manchester, Paisley, Surrey, York
AGATA OrganisationSteering Committee ASC
Chair: Marcello Pignanelli, Milan14 representatives of 10 EU countries
Management Board AMBPM: John Simpson, Daresbury
7 Working Groups
DetectorModuleJ.Eberth
Local LevelProcessingR.Krücken
ConceptualDesign andGlobal LevelProcessingD.Bazzacco
Designand
InfrastructureG.Duchêne
AncillaryDetectorsand their
IntegrationA.Gadea
DataAnalysisJ.Nyberg
EUContact
W.Korten
Working Teams
AGATA SPECSTarget ValueSpecified forQuantity
170 mmInner free space (Ri)
3 MHz
300 kHz
Mγ = 1
Mγ = 30Maximum event rates
better than 1E/E < 1%Angular resolution ()
60 - 70 %
40 - 50 %
Eγ = 1 MeV, Mγ = 1
Eγ = 1 MeV, Mγ = 30Peak-to-total ratio (P/T)
50 %
25 %
10 %
Eγ = 1 MeV, Mγ = 1, < 0.5
Eγ = 1 MeV, Mγ = 30, < 0.5
Eγ = 10 MeV, Mγ = 1
Photo-peak efficiency (ph)
efficiency, energy resolution, dynamic range, angular resolution, timing, counting rate, modularity, angular coverage, inner space
Two candidate configurations
120 hexagonal crystals 2 shapes40 triple-clusters 2 shapesInner radius (Ge) 17 cmAmount of germanium 220 kgSolid angle coverage 74 % Singles rate ~70 kHz4440 channels
Efficiency: 38% (M=1) 21% (M=30)Peak/Total: 63% (M=1) 47% (M=30)
180 hexagonal crystals 3 shapes60 triple-clusters all equalInner radius (Ge) 22 cmAmount of germanium 310 kgSolid angle coverage 80 %Singles rate ~50 kHz6660 channels
Efficiency: 40% (M=1) 25% (M=30)Peak/Total: 65% (M=1) 50% (M=30)
Size of Ge crystals :length 90 mmdiameter 80 mm
AGATA Detectors
3 encapsulated crystals
111 preamplifiers with cold FET
~230 vacuum feedthroughs
Hexaconical Ge crystals90-100 mm long80 mm max diameter36 segmentsAl encapsulatation
0.6 mm spacing0.8 mm thickness
37 vacuum feedthroughs
Italy&Germany ordering 3 symmetric encapsulated crystals. Cryostat built by CTT in collaboration with IKP-KölnFirst triple cluster ready by mid 2004
The AGATA DemonstratorObjective of the final R&D phase 2003-2007
1 symmetric triple-cluster5 asymmetric triple-clusters 36-fold segmented crystals 540 segments 555 digital-channels
Eff. 3 – 8 % @ M = 1
Eff. 2 – 4 % @ M = 30
Full ACQ with on line PSA and -ray tracking
Test Sites: GANIL, GSI, Jyväskylä, Köln, LNL, …
Cost ~ 7 M €
Data rates in AGATA @ 50 kHz singles
100 B/ev
5 MB/s
200 MB/s
1.5 ··· 7.5 kB/ev
~ 100 MB/s
36+1 7.5 kB/event
380 MB/s
~ 200 B/segment~ 10 MB/s
100 Ms/s
14 bits
Pulse Shape Analysis
Event Builder
-ray Tracking
HL-Trigger, Storage Online Analysis
< 100 MB/s
SEGMENT
GLOBAL
Energy & Classification
5*n max. 900 MB/s
save 600 ns ofpulse rise time
E, t, x, y, z,...DETECTOR
LL-Trigger
Suppression /Compression
ADC
Preprocessing+-
GL-Trigger
OFFLINE Offline Analysis, GRID, ...
HL-Trigger, Storage Online Analysis
100 MB/s 8.6 TB/day
Structure of WG and tasks of teams• T1: Simulation of key experiments
• T2: Data base for detector parameters• T3: Data storage and access• T4: Online analysis and monitoring• T5: Offline analysis
Scope of the meeting• Exchange of ideas• Definition of tasks and teams, identification of
possible team leaders. The final organization will be decided at next AMB meeting
• Concrete plans on how to proceed should be presented to the AGATA community at the first
AGATA weekSeptember 15-19Padova/Legnaro
Program of the meetingThursday 12th
A.Wäänänen GRID computing
E. Farnea GEANT4 simulations for AGATA
J. Cresswell GLP Summary + TDR
B. Herskind Microscopic-Simulations
T. Saito Hypernuclear spectroscopy with AGATA
J. Wilson Searching for hyperdeformation
M. Palacz What can we do with 100 MB/s?
Friday 13th
Discussions
