AGATA: Advanced Gamma Tracking Array

1. AGATA: Advanced Gamma Tracking Array

2. Introductions Presentations John Simpson International Project Leader Chair of AGATA management Board Technical co-ordinator International status and overview Paul Nolan Chair of AGATA Steering Committee UK Spokesperson Status of this grant Jonathan Strachan Project manager AGATA Mechanical Engineer & WP6 leader

3. International status and Overview What is AGATA? AGATA Demonstrator Phase Status UK Contribution New MoU (exploitation and development) Physics Campaigns

4. New challenges in Nuclear Structure Shape coexistence Transfermium nuclei 100Sn 48Ni 132+xSn 78Ni • Shell structure in nuclei • Structure of doubly magic nuclei • Changes in the (effective) interactions • Proton drip line and N=Z nuclei • Spectroscopy beyond the drip line • Proton-neutron pairing • Isospin symmetry • Nuclear shapes and high spins • Exotic shapes and isomers • Hyperdeformation • Coexistence and transitions • Neutron rich heavy nuclei (N/Z → 2) • Large neutron skins (rn-rp→ 1fm) • New coherent excitation modes • Shell quenching • Nuclei at the neutron drip line (Z→25) • Very large proton-neutron asymmetries • Resonant excitation modes • Neutron Decay

5. Idea of -ray tracking Large Gamma Arrays based on Compton Suppressed Spectrometers Tracking Arrays based on Position Sensitive Ge Detectors EUROBALL AGATA e~ 10 — 5 % ( Mg=1 —Mg=30) e~ 40 — 20 % ( Mg=1 —Mg=30) Huge increase in sensitivity

6. Long Range Plan 2004Recommendations and priorities In order to exploit present and future facilities fully and most efficiently, advanced instrumentation and detection equipment will be required to carry on the various programmes. The project AGATA, for a 4-array of highly segmented Ge detectors for g-ray detection and tracking, will benefit research programmes in the various facilities in Europe. NuPECC gives full support for the construction of AGATA and recommends that the R&D phase be pursued with vigour. Long Range Plan 2009/10 AGATA the major instrument

7. AGATA(Design and characteristics) 4-array for Nuclear Physics Experiments at European accelerators providing radioactive and stable beams Main features of AGATA Efficiency: 43% (M=1) 28% (M =30) today’s arrays ~10% (gain ~4) 5% (gain ~1000) Peak/Total: 58% (M=1) 49% (M=30) today ~55% 40% Angular Resolution:~1º  FWHM (1 MeV, v/c=50%) ~ 6 keV !!! today ~40 keV Rates: 3 MHz (M=1) 300 kHz (M=30) today 1 MHz 20 kHz • 180 large volume 36-fold segmented Ge crystals in 60 triple-clusters • Digital electronics and sophisticated Pulse Shape Analysis algorithms allow • Operation of Ge detectors in position sensitive mode  -ray tracking

8. The AGATA CollaborationMemorandum of Understanding 2003 Research and Development phase 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: GSI Darmstadt, TU Darmstadt, Univ. zu Köln, LMU München, TU München Hungary: Debrecen Italy: INFN and Univ. Firenze, INFN and Univ. Genova, INFN Legnaro, INFN and Univ. Napoli, INFN and Univ. Padova, INFN and Univ. Milano, INFN Perugia and Univ. Camerino Poland: IFJ PAN Krakow, SINS Swierk, HIL & IEP Warsaw Romania: NIPNE & PU Bucharest Sweden: Chalmers Univ. of Technology Göteborg, Lund Univ., Royal Institute of Technology Stockholm, Uppsala Univ. UK: Univ. Brighton, STFC Daresbury, Univ. Edinburgh, Univ. Liverpool, Univ. Manchester, Univ. Paisley, Univ. Surrey, Univ. York Turkey: Univ. of Ankara, Istanbul University

9. The First Step:The AGATA Demonstrator 1 symmetric triple-cluster 5 asymmetric triple-clusters 36-fold segmented crystals 540 segments 555 digital-channels Eff. 3 – 8 % @ Mg = 1 Eff. 2 – 4 % @ Mg = 30 Full EDAQwith on line PSA and g-ray tracking In beam Commissioning Technical proposal for full array Cost 6.7 M€ Capital

10. Ingredients ofg-Tracking 4 1 Identified interaction points Reconstruction of tracks e.g. by evaluation ofpermutations of interaction points Highly segmented HPGe detectors (x,y,z,E,t)i g · · Pulse Shape Analysisto decomposerecorded waves · · 2 3 Digital electronics to record and process segment signals reconstructed g-rays

11. First AGATA triple-detector @ IKP Cologne

12. Asymmetric AGATA Triple Cryostat - integration of 111 high resolution spectroscopy channels - cold FET technology for all signals Challenges: - mechanical precision - heat development, LN2 consumption - microphonics - noise, high frequencies

13. Detectors 3 symmetric detector delivered and operational 15 asymmetric capsules ordered R&D phase 12 operational 11/12 ordered next phase Deliveries 2009/2010 More orders (France and Italy soon) 5 triple cryostats ordered 2(3) operational 5 test cryostats available (scanning, CAT tests, electronics tests.)

14. Electronics and Data Acquistion Preamplifiers (Ganil, Milano, Cologne) Digitizers Pre-processing Trigger DAQ (tracking, storage, GUI)

15. First production digitizer at Daresbury AGATA Digitiser Module36+1 channels, 100 MhZ, 14 bits(Daresbury – Liverpool - Strasbourg) • 18 assembled • 7 in operation in Legnaro Prototype Segment Board (2 boards per crystal)

16. Pre-processing (Position) Management of team only Status: Production for 18 detector/capsules in progress Carrier cards- 25 delivered (8 mid-June). 9 commissioned and working Segment mezzanines- 50 delivered (60 mid-June) 33 working Electronics not on critical path!!

18. AGATA Demonstrator at PRISMA

19. Status of the installation Basic local infrastructure complete Full chain of EADQ for one triple complete Full chain for two triples now Commissioning with a simple ancillary

20. UK Contribution Project Management Digitizer electronics EDAQ specification Mechanical Design Detector characterisation

21. International Contribution to R&D phase MoU 2003 Total capital 6.7M€ (ex VAT) UK commitment EPSRC (£2.3M) capital 0.95 M€ (ex VAT), FTE 46.5

22. Project management:AGATA Organisation Ancillary detectors and integration A.Gadea Detector module P.Reiter Simulation and Data Analysis J.Nyberg Front-end Processing D.Bazzacco Data Acquisition Ch. Theisen Design and Infrastructure G. Duchêne Detector and Cryostat B. Bruyneel Digitisation P.Medina Data acquisition X.Grave Mechanical design J.Strachan Elec. and DAQ integration P. Bednarczyk Gamma-ray Tracking A.Lopez-Martens AGATA Teams Preamplifiers A.Pullia Pre-processing I.Lazarus Run Control & GUI G.Maron Infrastructure P.Jones Devices for key Experiments N.Redon Physics & exp. simulation E.Farnea R & D on gamma Detectors D.Curien Impact on performance M.Palacz Detector data base K.Hauschild Global clock and Trigger M.Bellato Detector Characterisation A.Boston PSA R.Gernhaeuser/ P.Desesquelles Mechanical Integration J. Valiente Dobon Data analysis O.Stezowski AGATA Steering Committee Chairperson: P.J. Nolan, Vice Chairperson: B. Cederwall G.deAngelis, A.Atac, F. Azaiez, D.Balabanski, A, Bracco, D.Bucurescu, B.Cederwall, J. Gerl, J.Jolie, W.KortenR.Julin, W.Meczynski, P.M.Walker AGATA Management Board J.Simpson (Project Manager) D.Bazzacco, G.Duchêne, P. Reiter, A.Gadea, J.Nyberg, Ch. Theisen, E. Farnea AGATA Working Groups and leaders

23. Commissioning in Legnaro Series of Source and in-beam tests March (no ancillary) June-July (Dante –MCP) Further 20 days requested from Sept AGATA+DANTE+Interface AGATA+PRISMA (tandem) AGATA+PRISMA (ALPI beams)

24. In-beam run March 2009 Aims To test the detector in real experiment conditions DAQ Pre-processing electronics On-line analysis Acquire useful data for off-line optimization of the system

25. RUNNING! • 30Si@70MeV + 12C 11:4217/03/2009 • Pre-processing • PSA • Tracking

26. Non-segmented detector DET 1823 keV ??

27. AGATA DET SEG 17.7 keV

28. AGATA DET SEG MGS 14.6 keV

29. AGATA DET SEG MGS JASS 12.5 keV

30. Run last week Reaction is 56Fe on 208Pb, One triple cluster and DANTE DAQ consists of 11 nodes. PSA, tracking and Doppler correction performed on line considering the central position of DANTE. The spectra show the 2+->0+ of 56Fe at 847 keV. No clear info about the narrowing of the peak. The trigger is the OR of DANTE plus one of the crystal. The coincidence rate is around 150Hz.

31. Fantastic progress Immediate aims and issues Test with ancillary detector Test with 2 or more triples (2nd installed next week) Start physics experiments

32. Issues AGATA collaboration Detectors Characterisation Production of electronics Staffing Organisation of the next phase New MoU Siting

33. New MoU In operation Signed by STFC Defines build up, operation and exploitation of full project New management structure Defines in more detail the build up to a 1/3 array UK signed up bid for 2460 k€ capital 550 FTE (months) This grant 893 k€ capital 470 FTE (months)

34. New MoU committments UK this grant Other major countries All countries on different timescales Germany 1M€, bid again 2012 Italy 2 triple systems assured, 5 year plan INFN being submitted France Bidding now (3 triple systems initially) Successful defence last week IN2P3 Sweden Bid when relationship to FAIR clear Other countries (Turkey, etc.) Key fact: Will have 10 triple clusters by end 2010

35. The siting issues At time of grant submission LNL- Ganil- GSI ~15 month campaigns New timescales Ganil Shutdown for SPIRALII installation mid 2011-early 2012 Re-evaluation of schedule

36. The current plan Under discussion, ASC-Labs-Collaborations (NuSTAR/PRESEPC) Meeting of AGATA, Lab directors, PAC Chairs last week GSI as the next site If GSI then: Run in LNL until June 2011 Earliest start GSI October 2011 Earliest start GANIL March 2013

37. Current planning • Affects this grant

38. THANKS

39. The ASC The AMB

40. Experimental conditions and challenges Low intensity High backgrounds Large Doppler broadening High counting rates High g-ray multiplicities FAIR SPIRAL2 HIE-ISOLDE EURISOL ECOS High efficiency High sensitivity High throughput Ancillary detectors Need instrumentation

41. -array for Nuclear Physics Experiments at European accelerators providing radioactive and stable beams HIE-ISOLDE GANIL SPIRAL 2 FAIR Jyvaskyla AGATA LEGNARO

42. AGATA detector detail

43. AGATA Front end electronics Digitizers: 18 assembled (UK), 7 operational in Legnaro, 3 Turkey (need to go to Strasbourg), 5 in Strasbourg, 3 in UK to go to Strasbourg. Pre-processing in production. Will be 40 carrier cards in total. Note, 2 carrier cards needed per crystal. 6 made by Padova. 34 in production in IPNO. 25 carrier cards have been delivered (rest mid June). Under test (9 tested and working). Segment mezzanine, 110 being manufactured (CSNSM), 50 delivered (60 mid June), 33 working early June. Note, need 7 per crystal since also being used for the core. Linco (card per carrier card to transmit data to processor/PSA farm), 6 in use, 10 in production, end June. GTS: one needed per crystal, plus a few for triggering and interfacing to ancillary detectors; 20 in production (out of 35), first modules expected beginning of July. Online digital trigger installed and tested: used in the end-May test (coincidence Dante-Ge) Overall aim to have a system for two triple clusters before summer vacations (almost ready now) Test system is being built up in Orsay.

44. Characteristation and Scanning Comparison of real and calculated pulse shapes. Validate codes. Coincidence scan for 3D position determination Two symmetric capsules scanned in Liverpool Further scanning systems Orsay operational (A005 or A006) C001 scanning in progress in Liverpool 288keV 374keV 662keV