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Upgraded Facility for Development of Silicon and Diamond Particle Detector Systems

Upgraded Facility for Development of Silicon and Diamond Particle Detector Systems. PARTICLE DETECTORS. Tome Anticic. FP7 REGPOT, Start summer 2010. Participants. deciding on how much money to ask for. 3 largest DEP laboratories. Laboratory for ion beam interactions

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Upgraded Facility for Development of Silicon and Diamond Particle Detector Systems

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  1. Upgraded Facility for Development of Silicon and Diamond Particle Detector Systems PARTICLE DETECTORS Tome Anticic FP7 REGPOT, Start summer 2010

  2. Participants deciding on how much money to ask for... • 3 largest DEP laboratories • Laboratory for ion beam interactions • Laboratory for nuclear physics • Laboratory for high energy physics Dr. Stjepko Fazinic Dr. Milko Jaksic Dipl. ing. Natko Skukan Dipl. ing. Mladen Bogovac Dr. Tonci Tadic Dr. Iva Bogdanovic ~33 employees, 15 directly included Dr. Neven Soic Dr. Mladen Kis Dr. Suzana Szilner Dr. Zoran Basrak Dr. Roman Caplar Dr. Sasa Blagus Dr. Tome Anticic Dr. Vuko Brigljevic Dr. Tatjana Susa

  3. Project goal • Even though DEP has • Excellent physicists, • Active on numerous top experiments, • Posseses good know-how, • Has an excellent detector testing faciltity (Van De Graaff) • lack of equipment,instrumention, staff, detectors, (and cooperation) prevents • A much more prominent role in international experiments, • Greater scientific impact • A larger experimental contribution to international and local experimental facilties. Problem: FP7 project that builds on exisitng know-how, puts to use existing strong facilties, uses existing membership in top experiments in order to significantly increase the experiemntal capacity and human potential, while at the same time addresing MANY of the weaknesses given in the SWOT analysis Solution • silicon detectors and readout • diamond detectors and readout • testing detectors: vacuum chamber and laser system • DAQ and detector control Focus

  4. “Why bother/is the solution available?”: HOW does Europe profit from this project? The trend in nuclear and particle physics experiments is the deployment of ever more precise and specialized particle detectors. However, the experimental facilities in Europe are often overbooked and understaffed to meet the demands for the timely development and testing of such detectors. Upgraded Facility for Development of Silicon and Diamond Particle Detector Systems How the project was sold to EU

  5. Partners SILICON DETECTORS DIAMOND DETECTORS VACUUM CHAMBER LASER TESTING DAQ/System control/FPGA University of Birmingham (Department of Physics), UK University of Bristol (Department of Physics), UK University of Frankfurt/NA61/CERN University of Huelva, Spain University of Manchester, (Department of Physics), UK University of Torino, (Department of Experimental Physics), Italy GSI (Detectorlabor group), Germany.

  6. Cost Equipment ~ 35 % total

  7. Project Steering Commitee Project Steering Commitee (PSC) Djuro Miljanic, Croatian National Science Council Alexander Oh, Manchester University Ettore Vittone, University of Torino Ismael Martel, University of Huelva Christian Joachim Schmidt, GSI Marek Gadzinski, University of Frankfurt/CERN/NA61 Joel Goldstein,University of Bristol Martin Freer, University of Birmingham Danica Ramljak, RBI director Management Board • Project Management Board: • T. Anticic • S. Fazinic • M. Jaksic • M. Kis • S. Szilner • V. Brigljevic • N. Soic • WP1 • S. Fazinic/T. Anticic • Project management WP2 N. Soic/T. Anticic Silicon Detector Systems WP3 M. Kis/M. Jaksic Diamond Detector Systems • WP6 • V. Brigljevic/S. Szilner • Dissemination WP4 M. Jaksic/S. Szilner Detector testing: vacuum chamber and laser WP5 S. Fazinic/V. Brigljevic Detector data acqusition and system control

  8. Silicon • silicon detectors for charged particles detection (thin 10-20 μm small area detectors, 1D position sensitive detectors, double-sided strip detectors, thin 20-30 μm large area strip detectors and position sensitive strip detectors). The estimated cost for these is 83500 €. • State-of-the-art silicon pixel detectors: NA61 and CMS at CERN. The estimated cost for these is 41500 €. • Procurement of detector readout electronics and modules including crates and related materials. Included are pre-amplifiers, multi-channel amplifiers, gate generators, FIFOs, logic units, multi-channel fast discriminators, counters, logic analyser, and power supplies. Estimated cost is 58000 €. Material costs, including cabling, connectors and adapters are about 14300 €. + 1 Foreign expert

  9. Diamond • Procurement of state-of-the-art diamond detectors: CERN, FAIR (CBM). The estimated cost for these is 62500 €. • Procurement of diamond detector readout electronics and modules, and related materials. Estimated cost is 28500 €. Material costs, including cabling, connectors and adapters are about 5500 €. + 1 Foreign expert

  10. Detector testing: Vacuum chamber + laser • Procurement of equipment/tools for assembly of the vacuum chamber. Included are a dedicated vacuum system (pumps, valves and vacuum-meters), a beam-guiding system (electro-magnetic elements and collimators) and a detector signal feed-through system for large number of detector elements. The estimated cost is 79000 €. Material cost is about 8500 €. • Procurement of a 3-stage goniometer to be able to rotate a detector in the vacuum chamber. Estimated cost is 22500 €. • Procurement of a table-top laser testing setup. Included is an optical table, motorized x-y translation stage with micrometer accuracy, and a mW CW laser. Estimated cost is 19 500 €. + 1 Foreign expert

  11. DAQ/FPGA/LabView • Electronics circuits simulation and design software as well as of the equipment for PCB prototyping. Estimated cost is 11500 €. • Procurement of PCI bus based DAQ board systems. Estimated cost is 9500 €. • Procurement of Field Programmable Gate Arrays (FPGA), as well as state of the art FPGA development boards Estimated cost is about 19000 €. • Procurement of site-wide software for programming and controlling FPGAs and FPGA development boards, based on the Matlab and Simulink environment. Estimated cost is 11600 €. • Procurement of site-wide LabView software, with real time simulation extension. This software is in common use for detector system control at numerous experiments, including many of the ones researchers from the NPP laboratories are part of (NA61 at CERN, PRISMA/CLARA setup at INFN-LNL, experimental end stations at GANIL). Estimated cost is 9500 €. • Upgrade and enlargement of existing Data Acquisition VME modules (ADC and QDC units, processor, crate). Estimated cost is 14500 €. + 1 Foreign expert

  12. Unique facility in Croatia for R&D on detector research instrumentation Strengthening of existing collaborations Opportunities for new collaborations • CBM at FAIR • Int. Linear Collider • CERN: NA61, CMS • GANIL, GSI, INFN-LNL Legnaro, UCL Louvain-la-Neuve, KVIGroningen • IPN Orsay, IReS Strasbourg, INFN-LNS Catania, TU Munich, PSI Switzerland,Oak Ridge NL • Improvements of R&D in nuclear and particle physics • Improvements of R&D on general research infrastructure • Cooperation with Industry/ commercialisation Human potential • new experienced researchers recruited • existing technical staff mobilized • scientific and technical staff trained Closer cooperation with regional centers Scientific equipment • University of Zagreb • University of Split Better integration in ERA • pool of DEP detector system research equipment increased • pool of equipment for data acquisition and system control R&D improved Sustainable partnerships with seven leading European R&D organizations Partnerships and regional cooperation Upgrading RTD capacity and capability Improvement of potential to participate in FP7 projects Quality of research • University of Birmingham • University of Bristol • University of Frankfurt • University of Huelva • University of Manchester • University of Torino • GSI • opportunities for high quailty research at local level accelerator facility • increased contribution in top collaborative research Increased opportunities for involvement in integrated infrastructure FP7 projects Increased opportunities for participation in ERC grant schemes Human interactions Increased opportunities for acquiring researchers • 4 foreigners will greatly contribute to internationalzaition of DEP • Additional employees and additional lab space requirements will force positive reassesment of room, space, and equipment usage • SPIRIT • ENSAR • Brigljevic/CMS Increased opportunities for popularisation of science IMPACTS

  13. Dissemination RBI general public broader scientific community young researchers DEP technical innovations partner institutions industry partner experiments WP 1,2,3, 4,5,6 WP 6 WP 6 WP 6 WP 1,6 lectures at international conferences undergraduate lectures at Croatian physics institutions Permanent scientific displays exchange of researchers attendance at workshops on intellectual property workshops review articles graduate lectures at Croatian physics institutions RBI Open Days contacts with RBI innovation and commercialization bodies popular articles seminars web site personal contacts at Croatian physics institutions personal contacts at joint experiments and projects students join activities at RBI Shared equipment:Operating procedures brochure workshops targeted to specific groups

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