status of the agata project june 2013 on behalf of the amb agata collaboration council meeting june...
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Status of the AGATA Project
June 2013
on behalf of the AMB
AGATA Collaboration Council meetingJune 2013
GANIL-SPIRAL2Caen
E.Clement
AMB Chairman Project Manager
A.Gadea
AGATA TASKS
Comp. Det. Elec. and DAQ
Integration
Mechanical Infrastructure
A.Grant
Software: Flow, Services & GRID
Xavier Grave
Complementary Detectors
J.J. Valiente
Global Trigger &Synchronization
Marco Bellato
Detector arrayInfrastructure
Bénédicte Million
Pre-processingIan Lazarus
Hardware: Local Infr. & Network
Henning Schaftner
Infrastructure.Comp. Det.E.Farnea†
Front-endElectronics
(P.M.)
Detector ModuleP.Reiter
Data FlowA.Korichi
AGATA MANAGEMENT BOARD AND TEAMS
Resource Manager
(Deputy PM)G.Duchêne
Slow Control & FEE Monitoring
Eric Legay
Pre-Amplifier Digitizer
Alberto Pullia
Detector Characterisation
Bart Bruyneel
Detector CAT &TestingHelen Boston
R & D on gammaDetectors &Applications
Detector &Cryostat
Bart Bruyneel
AGATA Physics & exp. SimulationMarc Labiche
Performance and Simulation
J.Nyberg
Quality Control and security
CompatibilityEMC, Interfacing
SpecificationControl
Documentation
AGATA Commissioning
C. Domingo-Pardo
Technical Coordinator
Engineering Advi.
Data Analysis& TRACKING
Olivier StezowskiA. Lopez-Martens
Data AnalysisA.Boston
GRIDData managing and Analysis
PSA Algorithm Development
R. Gernhauser.
INFN-LNLLegnaro
E.Farnea
AGATA Working Groups
A. Gadea (Project Manager)
GSIDarmstadt
H.J.Wollersheim
Thanks Pete!
A. Boston, G.Duchêne, E. Farnea(LCM LNL), A. Korichi, P. Reiter and J.Nyberg. H.J.Wollersheim (LCM-GSI), E.Clement (LCM-GANIL)
Enrico departed on14 April
2010-2011 LNL5ATC
2012 GSI/FRS~3ADC+5ATC
2014 GANIL/SPIRAL2
5DC+~8TC
AGATA+PRISMA AGATA + VAMOS+ EXOGAM
AGATA @ FRS
Total Eff. > 10% Total Eff. ~ 15% Total Eff. ~6%
1
23
4
5
The AGATA Phase 1(2010-2015)
AGATA DemonstratorAGATA Demonstrator AGATA > 1
The first “real” tracking array To be used at FAIR HISPEC, SPIRAL2, SPES
AGATA Capsules Summary
32 detectors delivered: A001,A002,A003,A004,A005,A006,A007,A008,A009 B001,B002,B003,B004,B005,B006,B007,B008,B009,B010,B011,B012,B013 C001,C002,C003,C004,C005,C006,C007,C008,C009,C010
Detectors with leakage current at Canberra (waiting repairing order):A005 (leakage current at LNL after warm-up to room temperature)B005 (leakage current after annealing)B009 (leakage current segm. A1 at LNL, increased current A1 after annealing) C002 (leakage current at LNL of segm. A5, leakage current of D6 after annealingC004 (leakage current of segm. B4 after annealing)
To be paid with 2012, 2013 and probably 2014 Operation Costs
New Detector Purchases (price for 2012 182 k€ for 2013 187 k€).
3 new crystals (2 France, 1 Spain) in 2012. Delivery mid 2014
Usage of the available detectors in the last experiments: A008, A003 A002 A004 A001, B001, B003 B010 B004 B002 B008 B012 B011 C003, C005 C001 C004 C006 C010 C008
20 Capsules mounted, 27 available. Efficiency is limited by missing B and C-type.
15 Capsules delivered after May 2011 only 1, B013, suffered from leakage current.
6 ATC and 5 ADC cryostats available. 2 more ATC cryostats purchased
CAT performed by IKP Cologne, Uni.Liverpool and IRFU Saclay
ATC1 ATC6ATC2 ATC3 ATC4 ATC5
Colorcode:WorkingbrokenCAT pending
ADC1 ADC2 ADC3 ADC4 ATC7 ADC5
IKP-Köln, Uni. Liverpool, IRFU-Saclay
AGATA-Canberra Agreement and Capsule Repairing
IKP-Köln, Uni. Liverpool, IRFU-Saclay, TU-Darmstadt
The pro-rated Warranty offered by Canberra to compensate for the leakage current issue:
Repair conditions Canberra commits to decrease the repair time of AGATA detectors to a maximum of six(6) months by investment in spare mechanical parts. To obtain this repair lead time objective Canberra will be helped by a continued backlog of AGATA detector orders.
Future ElectronicsINFN-Padova / INFN-Milano: Solution for the 2013-2015 period
•Partially compatible with the present Electronics•Pre-processing and ADC Electronics already at pre-production stage (firmware implemented and tested for 38 channels)•Cost ~20 k€/capsule ADC Card mounting
• Three cards under development, the digitiser (Milano) the pre-processing (Padova) and control (Padova).
• All prototyped and tested standalone. The cards have been integrated and are under test now in Legnaro with a segmented Ge detector.
• Firmware still being debugged but resolution obtained is good. • The digitiser cards are already in production phase; the other 2 cards small PCB changes following testing.
• Production will start for pre-processing and control cards within one month. • The aim is to have production of all cards ready before 2nd half of 2013.
Production completed for mid 2013
Pre-Processing ADC Card Control Card
•A substantial upgrade was done to the Data Flow Farm for Early Phase 1.
•Presently 22 Work Stations with LINCO cards (anodes) are ready at GSI and the standard procedure to set the anodes is done.
•The Data Flow software and hardware has performed in a very stable way during the first part of the AGATA-PRESPEC campaign.
•Transfer of data to GRID archiving has been an issue for long time at GSI. Now decided to go in a two-step transfer to solve the issue.
Early Phase 1 AGATA Data Flow NARVAL at GSI
IPN-Orsay, CSNSM-Orsay, GANIL, INFN-LNL,GANIL, IFJ-PAN-Crakow, IPN-Lyon
Narval-MBSA new version of Narval 1.14.3 has been installed, tested and it is working. The new data format has been discussed, new version of the ADF Library available.The status of Narval is that Event Builder, Data Flow and Data Flow Analyzer are ready and under test. New version of event builder installed at GSI, Troubles with merging at the event builder are solved. About 100% efficiency for the data transfer and EB are obtained. Changes in experimental condition may invalidate the patch.O. Stezowski (IPN-Lyon) updated the libraries and the DAQ watchers.
Synchronisation between Topology Manager and AGATA database. Improving GUI to monitor global information and access to Topology Manager
Priorities for the GEC team:1. VHDL1 before October
2. Future new electronics :- Slow control and integration in the GEC on the new hardware- Check if DAQ structure requires modification
GEC and Run Control
IPN-Orsay, CSNSM-Orsay, GANIL, INFN-LNL,GANIL, IFJ-PAN-Crakow, IPN-Lyon
Concerning the run control, presently Narval is launched with scripts, the krakow GUI is not being used.•Efforts to have a working AGATA Global Run Control for the GANIL campaign and beyond.•No major issue for the GANIL campaign as all the GANIL instruments are using Narval coupled to the GANIL Run Control. But necessary to have a stable system and not worth changing the Run Control for every AGATA campaign•Agreed that GANIL and Legnaro teams join their efforts to work together in order to improve the GANIL Run Control and makes it more flexible, portable and evolutive. This clearly will full fill the AGATA requirements for future experiments in other sites.
Infrastructure: Detector Support System
CEA Saclay, GSI, STFC-Daresbury, JYFL-Jyvaskyla, IPHC-Strasbourg, GANIL, INFN-LNL, INFN-Padova, INFN-Milano
AXIS LVPS: Following the installation at GSI, issues were discovered with the 48V LVPS modules, now ongoing repair.
Patch boxes: boxesThe new generation patch boxes are completed (LV filter). The LN2 level measuring circuit under test. Hardware BSD under production.
HV System R&D: A loan request has been sent to the Gammapool in order to keep the CAEN system, presently used at GSI, up to the end of the GANIL campaign. This would give the collaboration the time find an optimal solution for AGATA.
Autofill system: The AGATA autofill system is installed, commissioned and working. Ongoingupgrade of the PLC software.
Construction Database: New Data-Base GUI being deployed. Including Item pictures. Used at the Producing Institutes and Host Laboratories
The mechanical infrastructures have been installed in the S4 area in February 2012 according to the schedule. The support frame splits in two halves and the honeycomb structure can rotate around its axis in order to facilitate the mounting of the detectors. Modifications performed to avoid vibrations during the rotation of the honeycomb.
Mechanical Design and Construction STFC-Daresbury & the Mechanical Infrastructure Working Group (A.Grant, J.Strachan, R.Griffiths, I.Burrows, P.Morrall, B.Szczepanczyk)
Infrastructure: Mechanical Infrastructures
The know-how on mounting and aligning transferred to the GSI colleagues through a visit of the Padova experts. Maintenance of the structure at the end of 2012Now STFC is designing the AGATA @ GANIL support structure
Data Analysis, Pulse Shape Analysis & Tracking
The 2nd EGAN School on AGATA Data AnalysisGSI from 3rd – 7th December 2012. 24 students participanted at the school. ENSAR funds were made available to support the students.The programme was well received and had contributions as follows:Lecture: AGATA Data Analysis LNL (Olivier Stezowski, IPN Lyon)Lecture: Production and identification of radioactive beams at relativistic energies (Plamen Boutachkov , GSI)Lecture: Coupling and triggering in Prespec/AGATA (Stephane Pietri, GSI)Lecture: PreSPEC Library, a tool for online/offline analysis (Frederic Ameil, GSI)Lecture: Data analysis on the Grid (M. Kaci, IFIC Valencia) Electronic copies of all the presentations and training instructions http://ns.ph.liv.ac.uk/EGAN/programme-school.html. A GRID howto is available. Another school is planned December 2013 in Paris. Use of the GRID: Following the school 75% of the students were registered to use the GRID.
IPN-Lyon, CSNSM-Orsay, INFN-Padova, IRFU-Saclay, TU-Munich, Uni. Liverpool, IPN-Orsay, GSI-Darmstadt, IFIC-Valencia
Experimental Commissioning and Performance: The team has contributed to the design and deployment of the AGATA - PRESPEC commissioning. Next task to contribute to the AGATA – GANIL commissioning.
Simulations: Presently concentrated on the configurations for the second part of the GSI campaign and in particular on the coupling of Miniball with AGATA.Promising increase of efficiency for the coupled setup.
Started as well the simulation of the GANIL AGATA + EXOGAM2 configurationsThey are necessary for the mechanical design and for optimal use of the two arrays.
Simulations, Experimental Commissioning and Performance
Uni. Uppsala, INFN-Padova, STFC Daresbury, IFIC Valencia, GSI
The following technical publications have been review by the AGATA AMB
-“Response of AGATA Segmented HPGe Detectors to Gamma Rays up to 15.1 MeV” F.C.L. Crespi et al.-“Pulse Shape Analysis for Segmented Germanium Detectors implemented in Graphics Processing Units” E. Calore et al.-“Improved energy resolution of highly segmented HPGe detectors by noise reduction A.Wiens et al.- “Direct determination of the hit locations from experimental HPGe pulses”P. Desesquelles et al.-“AGATA counting rate measurements for Plunger experiments” A. Goasduff et al.- “Correction for neutron damage in AGATA detectors using Pulse Shape Analysis“ B. Bruyneel et al.-“Agata modules as Compton polarimeters for the measurement of gamma-ray linear polarization”P.G. Bizzeti et al.
Report and Discussion on Technical Publications
All technical publications within the AGATA framework must go through a revision by the AMB. Contact person Johan Nyberg <[email protected]>
Acknowledgement to
the AMB, AGATA Teams and
Local GSI and GANIL
Collaborators