plan for the jinr future activities in particle physics and relativistic nuclear physics, including...
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Plan for the JINR future activities in Plan for the JINR future activities in Particle Physics and Relativistic Particle Physics and Relativistic
Nuclear Physics, including those at Nuclear Physics, including those at LHC, FAIR, Nuclotron and NICALHC, FAIR, Nuclotron and NICA
R. R. LednickyLednicky
JINR, DubnaJINR, Dubna
Scientific Council102th meeting,
27-28 September 2007
JINR Activities & Worldwide JINR Activities & Worldwide PrPriioritiesorities
in in PParticlarticlee PPhysicshysics Priorities in Priorities in
PP:PP:
tthe he origin of mass;origin of mass;
the the unification of unification of particles particles
and forcesand forces including including gravity;gravity;
tthe properties of he properties of neutrinosneutrinos,, astrophysics;astrophysics;
the origin of the the origin of the matter-antimattermatter-antimatter asymmetryasymmetry in the in the
universe;universe; the properties of the properties of the strong interactionthe strong interaction including properties of including properties of nuclear matternuclear matter..
JINR activities:
SM & beyond: hadron and lepton collider physics CDF,D0,BES-3,CMS,ATLAS,ILC
Neutrino physics, astrophysics Borexino,OPERA,DayaBay,T2K,NUCLEON,TUS
Rare processes (CP-violation, rare K-decays) NA48/1-3,E391a,KLOD or JPARC?
Spin Physics & Nucleon structureNuc-exp,COMPASS,HERMES,H1,PAX
Non perturbative QCD NIS,DIRAC,PANDA
Relativistic Nuclear PhysicsNuc-exp,STAR,NA49/61,Hades,ALICE,NICA,CBM
JINR plansJINR plansDIRECTIONS Acc./Lab. Experiment 2007 2008 2009 2010 2011 2012 2013 2014 2015
TEVATRON CDF,D0 ?
BEPC-II BES-III ?
CERN LHC ATLAS, CMS
SM & beyond: hadron and lepton
collider physics ILC ? ?
GRAN SASSO OPERA, Borexino
Daya Bay Daya Bay
JPARC-KAMIOKA T2K Neutrino physics,
Astrophуsics
Space NUCLEON, TUS
CERN SPS NA48/1-3 NA62 ?
KEK E391a
JPARC JPARC ? Rare processes:
CP-violation, K-decays
U-70 KLOD ?
Nuclotron/NICA LNS, pHe3, Δ-Σ, …
HERA HERMES, H1
SPS COMPASS
RHIC STAR
Spin Physics & Nucleon Structure
FAIR PAX ?
Nuclotron NIS
PS/SPS DIRAC Non-p. QCD
FAIR PANDA ?
Nuclotron/NICA MPD ?
RHIC STAR
SPS, LHC NA61, ALICE
Relativistic Nuclear Physics: Phase trans., 3N-forces
Particles in Nuclear Medium SIS, FAIR Hades, CBM
Longitudinal quark distributions: - new direct method for Flavor HERMES
COMPASS decomposition in NLO QCD (A.Sissakian et al)
HERMES+COMPASS+H1:HERMES+COMPASS+H1:view of a nucleon view of a nucleon structurestructure
Precise measurement of gluon polarization:Precise measurement of gluon polarization: - - open charm (open charm (DD-meson production-meson production) ) COMPASSCOMPASS and hadron pairs, and hadron pairs, QQ22 >1 GeV >1 GeV2 2
HERMESHERMESOrbital momentum of quarks and gluons:Orbital momentum of quarks and gluons: - signal from GPDs - signal from GPDs HERMES H1HERMES H1
Transverse quark distributions:Transverse quark distributions: - transversity is non-zero! HERMESHERMES - - different contribution into different contribution into COMPASSCOMPASS hadron from proton and neutronhadron from proton and neutron
Spin structure function Spin structure function gg11:: - - precise determination precise determination HERMES HERMES COMPASSCOMPASS
But
Diffractive Diffractive structure function structure function FF22:: H1H1
not yet solved !
COMPASS-II: COMPASS-II: Deeply Virtual Compton Scattering and Hard Exclusive Meson Production Measurements +DY Physics with Polarized Target
1. GPDs in the COMPASS kinematics 2. Deeply Virtual Compton Scattering μ+ and μ- 3. Meson production (present ρ studies) 4. A completed Setup with COMPASS and Recoil Detector and new ECAL (Dubna
group)
E=
19
0,
100G
eV
2007-2009: construction of the Recoil Detector
2008-2010: R&D on new ECAL (JINR, Saclay, …)
2010-2012: GPDs data at COMPASS
vvKL00
● ● NA48/1-3 NA48/1-3 NA62 NA62
● ● E391a at KEKE391a at KEK Continuation possible Continuation possible
at Serpukhov U-70at Serpukhov U-70
or or at JPARC facility in Japanat JPARC facility in Japan
Rare processesRare processes
BR~8×10 BR~8×10 -11-11
BR~3×10 BR~3×10 -11-11
SM:SM:
Final measurement of charged asymmetries in charged and neutral modes Precise measurement of K->3matrix element parameters Final measurement of pion scattering lengths a0 and a2 on full statistics Precise measurement of K ->2matrix element parameters Precise measurement of Ke2/K(Run in 2007) Ke4 decay and a0 scattering length measurement Form-factors and branching ratio of Ke+e- and
K Measurement of Br and form-factors of K Search for lepton family violating KLe and KL
e (NA48 data).
NA48’s:NA48’s: 2007 and beyond2007 and beyond
In a frame of approved at JINR NA48 Project:
2222 ||||||
||1
||
||1 KK
K
KKmiss PP
P
Pm
P
Pmm
Prediction: BR(KPrediction: BR(K++++) ) (1.6×10 (1.6×10-5-5)|V)|Vcbcb||44[[22+(+(cc--))22] ] (8.0 ± 1.1)×10(8.0 ± 1.1)×10-11-11
(BR((BR(KKLL00) ) (7.6×10 (7.6×10-5-5)|Vcb|)|Vcb|4422 (3.0 ± 0.6)×10 (3.0 ± 0.6)×10-11-11))Almost unique casein meson physics where hadronic uncertainties are small
Important window to New Physics
P326 P326 (NA48/3, NA62): (NA48/3, NA62): Ultra rare kaon Ultra rare kaon decaysdecays
June, 2007: CERN SC has included it in a Medium-Term Plan for 2007-2011 with a status “Under construction” OKAPI
vvKL00
KLOD
Continuation possible Continuation possible as:as:
KLOD experiment KLOD experiment at Serpukhov U-70at Serpukhov U-70
oror
Experiment at Experiment at JPARC facility in JPARC facility in JapanJapan
Experiment E391a at KEKExperiment E391a at KEK
Dubna project NICANuclotron-based Ion Collider fAcility
GSI: FAIR/CBM
Elab ~ 34 AGeV
sNN = sNN = 8.58.5 GeVGeV
Elab ~ 40 AGeV
sNN = sNN = 9.09.0 GeVGeV
CBM–NICAssNNNN = 9 AGeV = 9 AGeV
AAGeVGeV
Study of nuclear matter at extreme conditions(search for mixed phase)
+ energy scan at CERN (NA61) and RHIC (STAR)+ energy scan at CERN (NA61) and RHIC (STAR)
Nuclotron-based Ion Collider fAcility& MultiPurpose Detector
Following steps are planned:
YearsYears Stage Stage
2008 2008 Development of the booster and the collider elements and start of Development of the booster and the collider elements and start of R&D on the prototypesR&D on the prototypesDevelopment of the NICA cryogenic elements and preparation of the Development of the NICA cryogenic elements and preparation of the test standstest standsDevelopment of the MPD elements and start of R&D on the Development of the MPD elements and start of R&D on the prototypesprototypesStart of the work on Computing and network infrastructure and its Start of the work on Computing and network infrastructure and its creation in the minimal configuration creation in the minimal configuration Start of the work on the infrastructure of the accelerator complex Start of the work on the infrastructure of the accelerator complex
20092009 Technical design report on the NICA accelerator complex Technical design report on the NICA accelerator complex Design of Booster and storage ring elements and creation of necessary Design of Booster and storage ring elements and creation of necessary production linesproduction lines
20102010 Start of the production of the booster and collider elementsStart of the production of the booster and collider elementsDesign of the beam cooling systemDesign of the beam cooling system
There will be a special talk by the LHE director V. KekelidzeThere will be a special talk by the LHE director V. Kekelidze
Study of Hadron Production in Hadron-Nucleus and Nucleus-Nucleus Collisions at the CERN SPS
NA49 NA61
Search for the critical point of strongly interacting matter
Study the properties of the onset of deconfinement in nucleus-nucleus collisions
Measure hadron production at high transverse momenta in p+p and p+Pb collisions as reference for Pb+Pb results
Useful expertise for NICA
Measure the data for -experiment T2K : and K production in the T2K target (p+C at 30, 40 and 50 GeV/c)
STAR experiment at RHIC
RESEARCH PROGRAM FOR 2008-2010:
• Gluon saturation scale
• First significant measurements of ΔG(x)
• First measurement of flavor dependence of sea quark anti-quark polarization in the proton
• Advances in spectroscopy including hadronic, radiative and leptonic decays
• Detailed femtoscopic measurements
• Search for photons from the early collision stage
• Search for the existence and location of the QCD Critical Point (energy scan)
The STAR Collaboration: 12 countries,
49 Institutions, ~ 500 People
Important expertise for the project NICA & JINR spin activities
Participation of JINR in the development of FAIR complex
(Facility for Antiproton and Ion Research)
PANDA (Proton ANtiproton DArmsdat):- Internal target
PAX (Polarized Antiproton eXperiment) :- Polarization of antiprotons APR- proton-antiproton collisions
NESR (New Experimental Storage Ring):- Electron ion collisions- Internal target
FLAIR (Facility for Low energy Antiproton Ion Research):- Antihydrogen generation
CBM (Compressed Baryonic Matter):-Relativistic Heavy Ion Collisions
Total structure ofTotal structure of SIS100 SIS100 includes includes:: Dipoles Dipoles - 108 - 108 Quadrupoles Quadrupoles – 168 – 168 Estimated cost is about 15ME, including finishing the Estimated cost is about 15ME, including finishing the R&D. R&D.
Dipole Dipole 2.75 м 2.75 м QuadrupoleQuadrupole 1.1 м 1.1 м
- The full scale prototypes of SIS100 dipole and quadrupole magnets areThe full scale prototypes of SIS100 dipole and quadrupole magnets are at present under construction at JINRat present under construction at JINR- - Development of the numerical model for cooling and heating of the beam at the internal target and experimental study of these processes at COSY
JINR accelerator activities at FAIR
Superconducting Dipole Magnet
Transition Radiation Detector (TRD)
JINR participation:
Simulation & Reconstruction (tracking, RICH, magnetic field)
Physics
The NUCLOTRON was used as a test bench for CBM detectors
Straw Transition Radiation Tracker (TRT)
Compressed Baryonic Matter Compressed Baryonic Matter (CBM)(CBM)
Proton-antiproton physics(PANDA experiment)
● Excited glue (glueballs and hybrids)
● Charm in Nuclei, Charmonium
● Hadrons in Matter
● Hypernuclei, etc.
SolenoidSolenoid DIRCDIRC MuonMuon
Iron yokeIron yoke RadiatorsRadiators Full SystemFull System
Present JINR Detector Involvement
+ prototype of minidrift chamber
Scientific program: studies in the field of high energy spin physics with use of a polarized antiproton beam
Main goal: measurement of the transversity distribution, the last missing piece of the QCD description of partonic structure of the nucleon.
Transversity describes distribution of transversely polarized quarks inside the transversely polarized nucleon.
Unlike the well-known unpolarized distribution q(x,Q2)and partly known helicity distribution q(x,Q2),
transversity hq1(x,Q2) has never been directly measured.
Transversity distribution is directly accessible uniquely via the double transverse spin asymmetry ATT in the Drell-Yan production of lepton pairs:
pp l+l-XTransversity via single-polarized and unpolarized DY processes (LPP) !
Other topics: electromagnetic form factors (phases in the timelike region, GE-GM separation, …)
single-spin asymmetries (Sivers and Collins mechanisms, …) p-pbar hard scattering mechanisms
Project PAXProject PAX
Collaboration PAX proposed experiments with polarized antiprotons. For this a dedicated facility at FAIR to polarize an antiproton beam could be built.
Summary of JINR activities Summary of JINR activities at FAIRat FAIR
AcceleraAccelerator tor complexcomplex
SIS100 dipoles SIS100 dipoles and and quadrupolesquadrupoles
15ME15ME Applied for Applied for contribution contribution from Russiafrom Russia
Already Already Included in Included in FAIR CostbookFAIR Costbook
CBMCBM TRD/TRTTRD/TRT
SC DipoleSC Dipole6.4M6.4MEE
3.0M3.0MEE
Applied for Applied for contribution contribution from Russiafrom Russia
Continue RD Continue RD concentrating concentrating on TRD/TRTon TRD/TRT
PANDAPANDA MuonMuon
DIRCDIRC
Iron YokeIron Yoke
2.5M2.5MEE
1.5M1.5MEE
1.0M1.0MEE
Applied for Applied for contribution contribution from Russiafrom Russia
Continue RD Continue RD concentrating concentrating on muon on muon system and system and DIRCDIRC
PAXPAX Feasibility studyFeasibility study 0.3M0.3MEE
Perform COSY Perform COSY and AD CERN and AD CERN test test experiments experiments
Project passed Project passed the Nuclear the Nuclear Physics PACPhysics PAC
Non perturbative QCDNon perturbative QCD
Present fixed target experiments at CERN Present fixed target experiments at CERN with JINR leading role: with JINR leading role: DIRACDIRAC (lifetime of (lifetime of , , K atoms), Primakoff reactions (K atoms), Primakoff reactions (Z Z Z) in Z) in COMPASSCOMPASS hadron program and hadron program and NA48/2 NA48/2 (kaon decays) are aimed to (kaon decays) are aimed to testtest low-energy QCD (low-energy QCD (PTPT) predictions) predictions
Experiments at Nuclotron/NICA Experiments at Nuclotron/NICA Future experiments at FAIR laboratory in Future experiments at FAIR laboratory in
Darmstadt Darmstadt
Hadron Collider PhysicsHadron Collider Physics
Tevatron CDF and D0 until 2009 (? Tevatron CDF and D0 until 2009 (? 2010)2010)
LHC experiments will start in 2008LHC experiments will start in 2008
Upgraded LHC after ~2013Upgraded LHC after ~2013
Main ATLAS Physics topicsMain ATLAS Physics topics Standard ModelStandard Model PhysicsPhysics
Higgs Higgs Boson Boson PhysicsPhysics SUSY PhysicsSUSY Physics ExoticExoticss Physics Physics Top Top Quark Quark PhysicsPhysics Heavy Ions PhysicsHeavy Ions Physics B B PPhysics hysics
JINR is in the main stream of the ATLAS Physics.JINR is in the main stream of the ATLAS Physics.This guarantees participation in LHC’s DiscoveriesThis guarantees participation in LHC’s Discoveries
● ● Remote ATLAS Control Room in Remote ATLAS Control Room in DubnaDubna
MOTIVATION MOTIVATION Monitoring of the Monitoring of the
detector at any timedetector at any time Participation of the Participation of the
subsystem experts subsystem experts from Dubna in the from Dubna in the shifts and data shifts and data quality checks quality checks remotelyremotely
Training the shifters Training the shifters before they come to before they come to CERNCERN
ACR at CERN
●● JINR integrated in ATLAS DDM JINR integrated in ATLAS DDM SystemSystemsince January 2007since January 2007
till the end of 2007till the end of 2007
2008-2012 CMS detector operation, DAQ and data quality monitoring during data taking ME1/1 and HCAL DQM, offline calibration and express analysis Development and validation of reconstruction and analysis software Data management at the RDMS Tier-2 Off-line reconstruction and physical analysis - study of Drell-Yan processes R&D to upgrade detector systems for SLHC
2008-2012 CMS detector operation, DAQ and data quality monitoring during data taking ME1/1 and HCAL DQM, offline calibration and express analysis Development and validation of reconstruction and analysis software Data management at the RDMS Tier-2 Off-line reconstruction and physical analysis - study of Drell-Yan processes R&D to upgrade detector systems for SLHC
The JINR main tasks in CMS
JINR Team Strategy Integration into CMS science program Concentration on a few selected physics tasks
where JINR physicists reached the advantages at the stage of preparation of the CMS Physical Program
2008
2009
2012
14 TeV Run at low luminosity 21033 см-2с-1
201014 TeV Run at high luminosity 1034 см-2с-1
0.1 fb-1
10 fb-1
100 fb-1
300 fb-1
Start-up HCAL и MЕ1/1 calibration, alignment, testing
of muon and jet reconstruction algorithms, SW for data quality control and express analysis
The first data analysis of Drell-Yan processes Inclusive jet production
(comparison with Tevatron data)
Analysis of Drell-Yan processes Searching for signals from new physics in
uncovered so far invariant mass region ~1 - 3 ТeV
Data on jets in uncovered region x и Q2
Analysis of Drell-Yan processes and searching for signals from new physics in uncovered so far invariant mass region ~ 1.7 – 5.6 ТeV
Data on jets in uncovered region x и Q2
BEC of the like sign gauge bosons (ZZ, W+W+, W-W-)
Time scale of JINR Data Taking & Analysis
Start of LHC – May, 2008
JINR Participation in JINR Participation in ALICEALICE: Study of Quark-: Study of Quark-Gluon Plasma Gluon Plasma
in Pb-Pb; Study of p-p & p-A collisionsin Pb-Pb; Study of p-p & p-A collisions
JINR Physics JINR Physics Tasks:Tasks:
Vector MesonsVector Mesons FemtoscopyFemtoscopy Heavy Heavy
Quarkonia Quarkonia
Scientific program: Study of QGP and phase transition- particle ratios and Pt spectra (strangeness production, collective flow, jet quenching)- femtoscopic correlations- fluctuations and event structures- direct photons (thermal radiation)- spectroscopy including radiative and leptonic decays (change of the resonance parameters)- color screening - …..
0
500
1000
1500
2000
2500
3000
2007 2008 2009 2010
CPU (kSI2k)
Disk (TB)
Mass storage(TB)
Tier-2s and Tier-1s are inter-connected by the general
purpose research networks
Any Tier-2 mayaccess data at
any Tier-1
Tier-2 IN2P3
TRIUMF
ASCC
FNAL
BNL
Nordic
CNAF
SARAPIC
RAL
GridKa
Tier-2
Tier-2
Tier-2
Tier-2
Tier-2
Tier-2
Tier-2Tier-2
Tier-2
Tiers-1 for JINR
ATLAS, CMS,
ALICE
Networks, computing, computational physics
Upgrade of the Dubna – Moscow link up to 10 Gbps in 2007, 40 Gbps in 2010, 100 Gbps in 2015
Increase of the performance of the JINR Central Information and
Computing Complex.Further development of the JINR Grid-segment as part of the global WLCG -
infrastructure Grid – solution for LHC experimentsGrid – solution for LHC experiments
There will be a special talk by the LIT director V.IvanovThere will be a special talk by the LIT director V.Ivanov
HEPWEB: Interfaces to generatorsHEPWEB: Interfaces to generators HEPWEB: Interfaces to generatorsHEPWEB: Interfaces to generators
FRITIOF
CASCADE
UrQMD
HIJING
Glauber Cross Sections
Reggeon Cross Sections
Analysis and description of exp. dataobtained by VBLHE
Program at HepWeb.jinr.ru
Electron Positron Collider Electron Positron Collider PhysicsPhysics
In the past - LEP experiment DELPHIIn the past - LEP experiment DELPHI
Physics at BES-III experiment starting nowPhysics at BES-III experiment starting nowspecial talk at this session by A.S. Zhemchugovspecial talk at this session by A.S. Zhemchugov
Preparation of ILC physics (including Preparation of ILC physics (including SANC project) and detectors (various SANC project) and detectors (various R&D)R&D)Accelerator part will be covered by G.D. ShirkovAccelerator part will be covered by G.D. Shirkov
Most ambitious task on ILC:• Origin of the mass (physics of Higgs
boson)• Supersymmetry (SUSY particles) • Origin of the dark matter and dark
energy (neutralino ?)• Grand Unification (at rather high
energies)
JINR (Dubna) is official candidate for possible ILC hosting on its territory approved by GDE stands in the list with Fermilab (USA), KEK (Japan), CERN (Switzerland, France) and DESY (Germany).
ILC Global Design Effort (GDE). The ICFA has appointed the directorate of the Global Design Effort (GDE). Academician A. Skrinsky (BINP, Novosibirsk), corresponding member of RAS M.Danilov (ITEP, Moscow) are representing Russia. Corresponding Member of RAS G.Shirkov represents JINR (Dubna).
Collaboration: DESY, INFN, KEK, RAS, BINP, Lebedev Inst. INR RAS, RSC KI, ITEP, IHEP, MSU, …
ILC – a unique international project of XXI century with a goal to create new generation accelerator complex: electron-positron collider for extremely high energy 500-1000 GeV
Fulfillment of scientific research and design construction works in physics and techniques of accelerators and preparation of proposals for the project of JINR participation in international collaboration on the ILC construction.
The neutrino masses and the The neutrino masses and the neutrino properties can be neutrino properties can be determined via:determined via:- direct measurement of neutrino mass- direct measurement of neutrino mass- neutrinoless nuclear double beta decay- neutrinoless nuclear double beta decay- neutrino masses from - neutrino masses from astrophysicsastrophysics- - neutrino oscillations:neutrino oscillations:
- Opera at Gran Sasso- Opera at Gran Sasso
- Daya Bay reactor neutrino experiment- Daya Bay reactor neutrino experiment- T2K - T2K
Neutrino physicsNeutrino physics
Possible ways to measure Possible ways to measure θθ1313
Daya Bay Power Plant (17.4 GW in 2011)
0 1 2 3 4 5
0.01
0.02
0.03
0.04
Run Time (Years)
Se
nsi
tivity
Run Time (Years)
sin2 2 1
3
0.01Goal:
sin2 2 1
3 (90
% C
.L.)
T2K off-axis near detector
NA61 Experiment at CERN SPS will measure and K production in the T2K carbon target at 30, 40 and 50 GeV/c incoming proton momentum (needed for the T2K physics goals)
Participation of DLNP JINR group (2007-2009) in the framework of existing JINR group in NA61 is planned to perform this analysis
Astroparticle physicsAstroparticle physicsTUS space experiment is planned for operation at the Small Space Apparatus (SSA) separated from the main Foton-4 satellite that has to be launched in 2010. Data taking period will be about 3 years to get new data about the energy dependence, composition and anisotropy of CR flux at 10^19 – 10^20 eV. (~ GZK cutoff). The TUS experiment is supposed to be as a pathfinder of the new ambitious KLYPVE/JEM-EUSO experiments on ISS.
NUCLEON space NUCLEON space experimentexperiment is in preparation. The design, production and tests of the NUCLEON trigger system is the JINR responsibility. The trigger module consists of two X, Y planes of 16 scintillator strips. The NUCLEON detector will be launched in orbit in 2009-2010.. The data taking is supposed to be 5 years to get new data about the energy dependence, composition and anisotropy of CR flux at 10^12 10^12 – 10^15 eV– 10^15 eV ( (“knee” region“knee” region). ).
Funding in k$ Funding in k$ (materials, equip., visits)(materials, equip., visits) 07/07-07/07-
0909 Info+Comp+NetworkInfo+Comp+Network 170170/ 901/ 901** ATLASATLAS 442323/1479 SM & Beyond/1479 SM & Beyond CMS CMS 284284/ 955/ 955 NA58/HERMESNA58/HERMES 118282/ 420/ 420 * * Np QCD, Nucleon struct, Np QCD, Nucleon struct,
Rare procRare proc NA48/H1/OKAPINA48/H1/OKAPI 112828/ 375 / 375 ** OPERAOPERA 111122/ 330 Neutrino phys & / 330 Neutrino phys &
AstrophysicsAstrophysics STARSTAR 6060/ 269 Relativistic ion physics/ 269 Relativistic ion physics CDF+D0CDF+D0 72/ 21672/ 216 ALICEALICE 8585/ 180 / 180 ** DIRACDIRAC 58/ 17458/ 174 Rare ProcessesRare Processes 53/ 15953/ 159 HADESHADES 3377/ 115/ 115 FAIR-GSIFAIR-GSI 119090/ 644/ 644 ** LHCLHC Damp Damp 30/ 11030/ 110 ILCILC Phys+Det Phys+Det 116868/ 349 / 349 ** ILCILC: Accel part: Accel part 151599// 459 459 **
------------------------------ 22022202//71357135.. **incl.incl. 470 470 k$ JINR-BMBFk$ JINR-BMBF
Projects outside JINR ~30%Projects outside JINR ~30% of JINR budget of JINR budget ((~½~½ CERNCERN))
inside JINR ~3%inside JINR ~3%
JINR expenses on outside projectsJINR expenses on outside projects
JINR STCJINR STC (15 May 2007)(15 May 2007) - - RecommendationsRecommendations
In the updated Road Map, In the updated Road Map, balance balance JINR participation JINR participation in the international in the international projectsprojects realized realized outsideoutside andand insideinside JINR giving more weight to the latter (e.g. JINR giving more weight to the latter (e.g. NICA). NICA). StimulateStimulate the participation of the participation of young scientistsyoung scientists in the in the home projectshome projects..
Consider Consider CERNCERN and and GSIGSI as as basic JINR partnersbasic JINR partners in PP in PP & RNP. Use the participation in the ambitious projects & RNP. Use the participation in the ambitious projects outside JINR for outside JINR for realizationrealization of highly competitive of highly competitive scientific goalsscientific goals as well as a way to as well as a way to supportsupport high high qualificationqualification of JINR staff. of JINR staff.
Participate only in the Participate only in the most ambitious outside most ambitious outside projectsprojects. Use essential part of the financial resources . Use essential part of the financial resources to to guaranteeguarantee the the effective workeffective work within these projects within these projects basically basically in Dubnain Dubna and thus make the work here and thus make the work here attractive for young scientistsattractive for young scientists from JINR member from JINR member states.states.
Thank you for your Thank you for your attention!attention!