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Joint Institute for Nuclear Research V.A.Matveev The 5 th International Conference”Distributed Computing and GRID-technolodgies in Science and Education”- GRID`2012` July 16-21, Dubna
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2 JINR is located in the city of Dubna in 120 km from Moscow
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The Convention on the establishment of JINR was signed on 26 March 1956 in Moscow Science Bringing Nations Together
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Days of JINR in Czech Republic
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JINR’s partners are about 700 institutions located in 60 countries, including about 300 institutions and universities from the JINR Member States AUSTRIA BELGIUM CERN CROATIA DENMARK FINLAND FRANCE GREECE IRELAND NETHERLANDS NORWAY PORTUGAL SLOVENIA SERBIA SWEDEN SWITZERLAND UNITED KINGDOM BULGARIA CZECH REPUBLIC GERMANY HUNGARY SLOVAKIA EUROPE DUBNA AFRICA EGYPT SOUTH AFRICA AUSTRALIA AND OCEANIA AUSTRALIA AMERICA BRAZIL CANADA UNITED STATES CHINA ISRAEL JAPAN SOUTH KOREA TURKEY INDIA DEMOCRATIC PEOPLE'S REPUBLIC OF KOREA MONGOLIA VIETNAM ASIA BRAZIL CANADA CLAF CUBA UNITED STATES ITALY POLAND ROMANIA SPAIN REPUBLICS OF FORMER SOVIET UNION ARMENIA AZERBAIJAN BELARUS GEORGIA KAZAKHSTAN MOLDOVA RUSSIA UKRAINE UZBEKISTAN REPUBLICS OF FORMER SOVIET UNION ARMENIA AZERBAIJAN BELARUS GEORGIA KAZAKHSTAN MOLDOVA RUSSIA UKRAINE UZBEKISTAN Science Bringing Nations Together
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Federal Law 6 January, 2000 JINR – Russia Agreement
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7 Synchrocyklotron 680 Mev (1949) Synchrophasotron 10 Gev (1957) Synchrophasotron 10 Gev (1957) V.Veksler M.Meshcheryakov
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JINR comprises 7 Laboratories, each being comparable with a large institute in the scale and scope of investigations performed 8 Veksler and Baldin Laboratory of High Energy Physics Dzhelepov Laboratory of Nuclear Problems Bogoliubov Laboratory of Theoretical Physics Frank Laboratory of Neutron Physics Flerov Laboratory of Nuclear Reactions Laboratory of Information Technologies Laboratory of Radiation Biology
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Czech days in JINR
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Special Economic Zone “Dubna” Public-Private-Partnership UC, DIAS-TH International Univ. “Dubna” Education programme Innovative activities JINR’s Science Policy 7-Year Program: ‘2010 – 2016’ High Energy Physics High Energy Physics Nuclear Physics Nuclear Physics Condensed Matter Physics Condensed Matter Physics Basic Scientific Directions Fundamental Science
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Seven-Year Plan 2010-2016: Fundamental Science Particle Physics Nuclear Physics Condensed Matter Physics Closely interrelated with: IT, educational program, innovation activities MAIN GOALS Completion of the upgrade program of basic facilities: Nuclotron-M (completed in 2011) U400M (complete in 2011) IBR-2M (completed in 2011) Construction of new facilities: complex NICA (2017), DRIBs-III (2016), Spectrometer complex of IBR-2M (2016) 11
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Czech days in JINR 46 prestigious academic and state awards, and prizes of Russia, Czech Republic, Bulgaria, Georgia, Romania, and other countries. More than 40 discoveries, including: –1959 – nonradiative transitions in mesoatoms –1960 – antisigma-minus hyperon –1963 – element 105 –1972 – postradiative regeneration of cells –1973 – quark counting rule –1975 – phenomenon of slow neutron confinement –1988 – regularity of resonant formation of muonic molecules in deuterium –1999-2010 – super-heavy elements 113-118 and their chemical identification Recently 114 named Flerovium after G. Flerov Discoveries
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13 113 Discovered at JINR in 2003 114 Discovered at JINR in 1999 115 Discovered at JINR in 2003 116 Discovered at JINR in 2000 118 Discovered at JINR in 2001 D.I. Mendeleev 1834 - 1907 117 Discovered at JINR in 2009
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2011: 2011: Names and Symbols of the Elements with Atomic Numbers 114 and 116 A joint IUPAC/IUPAP Working Party (JWP) has confirmed the discovery of the elements with atomic numbers 114 and 116. In accord with IUPAC procedures, the discoverers proposed names as follows: Flerovium and symbol Fl for the element with Z = 114 and Livermorium and symbol Lv for the element with Z = 116. The Inorganic Chemistry Division recommended these proposals for acceptance. Pure Appl. Chem., Vol. 83, No. 7, pp. 1485–1498, 2011 14
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FLEROV LAB ACCELERATORS views of set-ups U400MU400U200 IC-100 DRIBSMT-25
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U400R Towards DRIBs-III (2016) MT25 U200 IC100 Nuclear Physics SHE factory 2016 1500m 2 2012 NanoLab 1500m 2 1000m 2 2015 Exotic Nuclei E = 30 ÷ 60 MeV/n A < 60 SHE experiments U400R Accelerator Complex U400M+DECRIS-SC 16
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1960: anti-sigma minus hyperon discovery 105 V.I. Veksler, Acad. (March 1907 ) JINR Synchrophasotron, leadership (1949-1950) 55 JINR Synchrophasotron April 1957, 10 GeV proton energy achieved. World wide record energy
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High Energy Ion Physics with Nuclotron Nuclotron is a superconducting synchrotron for heavy ions (has been operating since 1993). The main home facility today: Nuclotron complex of VBLHEP Future plan: NICA/MPD/SPD – Nuclotron-based Ion Collider fAcility with Multipurpose Detector and Spin Detector (start 2017)
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FT experiment area Nuclotron Lu 20 Booster New Linac Collider Complex NICA @ JINR (VBLEP) Days of JINR in Czech Republic accelerator facility
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Dubna, 5 July 2011, Session of the Russian Governmental Commission for High Technology and Innovation, which was chaired by the Prime Minister of the Russian Federation, V. Putin. Note was taken that the NICA project has been included by the Commission in the list of six megaprojects that may receive substantial dedicated support from the Russian Government. Russia & JINR: Mega-science projects 20
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Parameters Reactor core Main movable reflector Additional movable reflector FuelPuO 2 Active core volume22 dm 3 Coolingliquid Na Average power 2 МW Pulsed power1500 MW Repetition rate5 s -1 Average flux8·10 12 n/cm 2 /s Pulsed flux5·10 15 n/сm 2 /s Pulse width (fast / therm.) 215 / 320 μs Number of channels14 21 D. Blokhintsev The IBR reactor idea: D. Blokhintsev (1955).
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IBR-2M power start-up 200 μs On October 12, 2011 the reactor reached the full designed aver. power of 2 MW. New experiments are in active preparation stage. Average power 2 MW Peak power 1850 MW
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Nanotechnology Physics of high-temperature superconductivity Geological texture research Nanosystems and Nanotechnology Biomedical research New materials Diagnostics. Earth science. IBR-2 applications
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Other Applied science Geophysics Medicine Biophysics Biology Chemistry Materials science Physics Areas of scientific research Preparation for the user’s program at the IBR-2M
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Radiation Biology Lens and Retina UV-induced aggregation of b L - crystallin pre-irradiated with B 11 cytoplasm micro-vacuolization, fiber cell swelling, nuclear fragmentation Cataractogenesis А ControlБ МНМ, 70 mg/kg, 2h Mutagen-induced functional retinal damage electroretinogram
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Applied research: hadron therapy Phasotron operation time in 2011: 900 hours More than 100 patients were treated in 2011 on Phasotron proton medical beams. In total > 800 patients have been treated since 2000. JINR at leadership of the Russian Federal Medico- Biological Agency participated in the development of the Project of the Dimitrovgrad Proton Centre, which being implemented under Federal Program. New technological centre was constructed at JINR for assembling and testing medical proton cyclotrons. Assembling and beam tests of the proton cyclotron C235-V3 was started in 2011. Cyclotron C235-V3 will be delivered to Dimitrovgrad at the end of 2012. 26
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JINR Educational Programs EDUCATIONAL FACILITIES AT JINR LABS It is foreseen at the JINR scientific laboratories to create elements of educational infrastructure, which allow students to get acquainted with modern equipment of physics experiments. An important task of the JINR UC is to renovate ties with leading universities of the Member States. These should lead to emergence of new training programs and to involvement of young scientists and engineers to Complex NICA, DRIBs, IBR-2M and other facilities of JINR. 27
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Welcome to Dubna! 29
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