G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003

1. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 Status of the Basic Facilities at JINR G.Shirkov • Basic Facilities • Operation and development • 1.1. Nuclotron • 1.2. Phasotron • 1.3. Cyclotrons and DRIBS • 1.4. IBR-2 operation & refurbishment • 1.5 IREN • 1.6 LEPTA • 1.7 DELSY • 2. JINR Technical Policy and Infrastructure • 3. Problem of Young Staff for JINR

2. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 Basic Facilities Operation 1997 – 2002 TRun 5705 5368 4953 4885 3914 3163 2931 2738 2168 2113 2073 2067 1989 1984 1850 1367 1865 1365 1330 1516 1015 989 977 949 861 558 508 401 296 226 Year 1998 2001 1997 2000 2002 1999 - Phasotron - Nuclotron - U-400 - IBR-2 - U-400M

3. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 Nuclotron IBR-2 U400 U400M - planned for period Basic Facilities in 2003 - actual • planned for year 2003 720 624 2500 650 681 650 2000 2940 4400 1500 1982 2200 Facilities operating by users' request 1065 Phasotron 778 2370

4. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 Accelerator Facilitiesof Baldin-Veksler Laboratory of High Energy Beam lines layout in experimental hall 205

5. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 INJECTOR Ion sources LINAC LU-20 SYNCHROPHASOTRON Experimental Hall 205 MV-1 F-3 fromNUCLOTRON SLON Polarimeter “ALPOM” Polarimeter F3Pz(+)=0.59±0.06Pz(-)=-0.63±0.06 Polarized Deuteron Beam at Nuclotron RUN 24(Dec. 2002) Polarlzatlon Internal target & setup for experiments at NUCLOTRON MV-2 He-LiqueFier KCU-1600

6. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 Development of the Nuclotron Complex in 2002-2008

7. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 INTENSITY (Particles per cycle) Beam 2002 YEAR 2003 YEAR 2005 p 31010 11011 21011 d 2.31010 51010 11011 4He 8 108 5109 21010 7Li 8 108 2109 2109 10B 2.3107 12C 1109 3109 21010 24Mg 2.0 107 3108 5108 40Ar ~ 106 3107 2108 56Fe 1106 1107 84Kr 1103 1105 5106 131Xe - 2106 d 3107 108 3108 3109 THE NUCLOTRON OPERATION & DEVELOPMENT IN 2002& 2003 • OPERATION • TOTAL RUNNING TIME - 1850 h (2000 h) • COOLDOWN TIME • - 283.5 h • BEAM TIME • - 1437 h • BREAKS • - 129.5 h • BEAMS - p, d, He, Li, C, B, Mg, Ar,d • BEAM ENERGIES - 0,15 - 2.2 GeV/u; - 5.7 GeV (protons) • EXTRACTION EFFICIENCY - 96% • ELECTRIC POWER - 6.5  104 kW hour/day • LiQUID N2 - 8.0 tonn/day • MAIN ACHIEVEMENTS •  STABLE OPERATION, BEAM TIME ~ 77% •  QUALITY OF BEAM EXTRACTION T  2 s - 5 s (March 2003) •  EFFICIENCY OF CRYOGENIC SUPPLY SYSTEM • NEW BEAMS – Ar, Be7 (secondary), d • NEW LASER ION SOURCE

8. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 Dzhelepov Laboratory of Nuclear Problems PHASOTRON Phasotron parameters: Proton energy 660 MeV Energy spread 3 MeV Repetition frequency 250 Hz Beam emittance 51/34 mmmrad Current of fast extraction 2.5 A Current of slow extraction 1.5-2 A

9. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 Investigations at Phasotron OPERATION OF PHASOTRON (hours) 03.02-29.04.2003 • Fundamental Investigations: • DUBTO - Resonant behaviour of the both the pp- and nn+ systems, produced in 4He interaction. • MUON – Investigation of the muon properties and the muon interactions with matter. • FAMILON - The study of the two-particle muon decay on an electron and golston's massless boson. • -CATALISIS- Measurements of muon cataslazed fusion cycling rate temperature dependence in a binary mixture D/T in the temperature range 40-300 K. • Applied investigations: • Cancer therapy; • SAD- Energy Amplifier • Machine development: • Upgrade of the Phasotron and its beam channels; • Design of external injection in the Phasotron.

10. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 A multi-room Medico-Technical Complex for radiotherapy with hadron beams from Phasotron Treatment room No 1 for proton therapy of tumors seated in the head, neck, and trunk

11. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003

12. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 The Status DRIBs and its future development in 2002 • Project DRIBs (phase I): • 6He ions were accelerated at the U400 cyclotron; • The efficiency of the system was 1.5% (the projected value is 15%); • a number of modernizations in the system units were made, which were aimed at increasing the efficiency of extracting 6He (8He) nuclei from the catcher and transforming them into the accelerated beam; • a mechanical part of the system for extracting the 6He and 8He beams from U-400 was created; • the systems of diagnostics of the extracted from U-400 6He and 8He beams, vacuum system for the beam lines and physical set-ups as well as control systems were developed. • Intensive research and design works in the frames of the Project DRIBs (phase II): • Modernization of the microtron’s system and transport line, design of the transport line delivering an electron beam to the uranium target; • Design and testing of the target-ion source complex; • Calculation and development of a transport line for beams of single-charged ions-products of uranium fission. • Development of the diagnostics system; • Development of the charge breeder on the basis of the ECR ion source; • Elaboration of radiation protection measures.

13. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 • U400R cyclotron • Project U400R based on the U400 cyclotron facility • The main goals of reconstruction are: • Increasing beam intensities for masses with A  50 and energy range near 5 MeV/nuclon up to 3 pma. • Variation of the ion energy on the target with coefficient near 5. • The ion beam emittancies on the target on the level 10 mm  mrad. • The ion beam energy spread on the target on the level (2  3)  10-3. • Decreasing of the main magnet power consumption from 1000 kw up to 250 kw. • Completion of the cyclotron system by modern equipment. • Now near finishing is the phase of the computer simulation and starting the phase of the designing.

14. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 FRANK LABORATORY of NEUTRON PHYSICS Fast Pulsed Reactor IBR-2 Principal diagram of the reactor IBR-2

15. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 IBR-2 operating indices(from 01.01.2003 till 01.03.2003) IBR-2 operation status (as of 01.04.03)

16. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 The IBR – 2 reactor modernization program: 2003  2009 2003-2009 = 4 620 k$ JINR = 2 100 k$ MAE =2 520 k$

17. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 IREN – Intense REsonance Neutronsource at FLNP IREN - NEW BRIGHTEST IN EUROPE PULSED NEUTRON SOURCE OF JINR FOR INVESTIGATION IN FUNDAMENTAL AND APPLIED NUCLEAR PHYSICS.

18. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 GENERAL SCIENTIFIC PROGRAMME FOR IREN SOURCE • FUNDAMENTAL NUCLEAR PHYSICS • SEARCH FOR VIOLATION OF TIME INVARIANCE WITH POLARIZED RESONANCE NEUTRONS AND POLARIZED TARGET • STUDY OF PARITY VIOLATION IN NEUTRON INDUCED REACTIONS ( FISSION, (n,), (n,p), (n,) • ELECTROMAGNETIC STRUCTURE OF THE NEUTRON • QUANTUM ASPECTS OF NEUTRON INDUCED FISSION • PHASE TRANSITIONS IN EXCITED NUCLEUS - CHAOS AND ORDER IN QUANTUM SYSTEMS • APPLIED NUCLEAR PHYSICS • NUCLEAR DATA FOR ASTROPHYSICS • NUCLEAR DATA FOR TECHNOLOGY • ISOTOPE ANALYSIS WITH RESONANCE NEUTRONS

19. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 LEPTA - Low Energy Positron Toroidal Accumulator Dzhelepov Laboratory of Nuclear Problems Septum Collector e+ trap e-gun e+ source Quadrupole Cooling section Detector B • LEPTA Project Status - June 2003 • Ring assembling – in progress, to be completed September 2003 • Test of magnetic system with pulsed electron beam – in progress • Circulating electron beam in LEPTA – October 2003 • Injector manufacturing and assembling - in progress, to be completed December 2003 • Beginning of the injector test with positrons – September 2003 • Positron storing in the injector trap – March 2003 • Positron injection into the ring – June 2004

20. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 Test of magnetic system with pulsed electron beam First electron beam in straight section of LEPTA January 15, 2003 Test of magnetic fields with “a pencil beam” - image of electron beam at the luminescent screen, different stages of focusing Electron gun

21. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 DELSY – Dubna ELectron SYclotron Laboratory of Particle Physics & Dzhelepov Laboratory of Nuclear Problems

22. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 THE STATUS OF THE LINAK-800 DEVELOPMENT IN JUNE 2003 • technical project of the LINAC-800 accelerator construction is finished; • conceptual project of the injector for the formation and acceleration of short bunches is developed; • agreement of the injector production is reached; • dismounting of the former linear accelerator LIU-300 is finished; • control facilities of the DELSY is remounted; • renovation of the bld 118 for LINAC-800 is in progress; • technological openings making for waveguides is started; • sources of the power supply (outer transformers of the 2MWt total), and of the distilled water has been revised; • door between the accelerator and modulator halls is reconstructed; • work of the reconstruction and placement of the outerwater-water and water-oil coolers is started

23. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 2. JINR Technical Policy and Infrastructure • In order to improve and develop the technical policy and infrastructure at JINR, a supplement to the Programme of JINR’s Scientific Research and Development for the years 2003-2009 will be prepared for the session of the 95th Scientific Council (January 2004). This activity has been started by a working group. This group was established by the JINR Directorate. • The supplement will include the status, proposals of maintenance and development as well as requests for necessary resources in 2003-2009 for: • Basic facilities • Energy, heating and water • Experimental workshops • Technical infrastructure of laboratories • Radiation, nuclear and industrial safety • Information technologies • Buildings, Transport, Social infrastructure • Staff policy

24. G.Shirkov, Basic Facilities, JINR Scientific Council, 05.06.2003 3. Problem of Young Staff for JINR number by age age • The main reason for the aging of the JINR personnel: JINR is not attractive for the younger generation now due to: • low salary; • limit of modern scientific equipment in Laboratories; • housing and living problems; • social problems • A special group was recentlyorganized in order to study ways of making JINR more attractive for young scientists and workers.

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