01-3-1116-2014/2018
 
Priority: 1
   
Status: Approved for completion
in 2018
 
Modern Mathematical Physics: 
Strings and Gravity, Supersymmetry, Integrability 
 

Leaders:     A.P. Isaev
A.S. Sorin 
S.O. Krivonos
Scientific leader:         A.T. Filippov


Participating Countries and International organizations:
Australia, Austria, Armenia, Brazil, Bulgaria, Canada, CERN, Czech Republic, France, Germany, Greece, Hungary, ICTP, India, Italy, Japan, Norway, Poland, Romania, Russia, Serbia, Spain, Turkey, Ukraine, USA, United Kingdom. 

 

Scientific Programme:
The main purpose of research in modern mathematical physics is the development of mathematical methods for solving the most important problems of modern theoretical physics: clarifying the nature of fundamental interactions and their symmetries, construction and study of effective field models arising in the theory of strings and other extended objects, uncovering the geometric description of quantum symmetries and their spontaneous breaking in the framework of search for a unified theory of all fundamental interactions, including quantum gravity. Mathematical physics in recent years has been characterized by increasing interest in identifying and effective used of integrability in various areas, and in applying powerful mathematical methods of quantum groups, supersymmetry and non-commutative geometry to quantum theories of fundamental interactions as well as to classical models. 

The main goals and tasks of the research within the theme include: development of new mathematical methods for description of a variety of integrable models and their exact classical and quantum solutions; analysis of a wide range of problems in the theory of superstrings and superbranes, including study of nonperturbative regimes in supersymmetric gauge theories; development of a microscopic description of black holes and constructing cosmological models of the early Universe. The decisive factor to solve the above problems is a crucial use of the mathematical methods of the theory of integrable systems, quantum groups and noncommutative geometry as well as superspace techniques. 

Expected main results in 2018:

  • Studies of topology and geometry of the moduli spaces of special Bohr — Sommerfeld lagrangian cycles in algebraic varieties. 

    Construction of canonical Berry bundles on the moduli spaces of special Bohr — Sommerfeld lagrangian cycles in algebraic varieties. 

    Construction of holographic renormalization group flows related to SL(2,C) Toda chains. Analysis of the obtained RG flows in the framework of the gauge/gravity duality. Construction of solutions without a horizon (boson stars) with anti de-Sitter and anisotropic asymptotics. Analysis of the solutions in the holographic framework. 

    Construction of Kerr-Vaidya/ Kerr-Newman-Vaidya solutions with AdS asymptotics for the D=5 supergravity model. Study of local operators (two-point correlation functions) for the constructed metrics via holography. 

    Application of the generalised Reshetikhin formula for the scalar products of the Bethe vectors to the problems of form-factor calculations of the local operators in the quantum integrable models with high symmetry. Reduction of these quantities to the determinant forms and its application to the problem of calculation of the correlation functions in the thermodynamic limits. 

    Construction of classical integrable systems on varieties of modules of the preprojective algebras and their applications to generalised KP hierarchies. Construction of integrable deformed elliptic Calogero–Moser systems by means of the elliptic Dunkl operators. Construction of eigenfunctions of the deformed Macdonald–Ruijsenaars systems by using the representation theory of the Ding–Iohara algebra. 

    Study of systems of oscillators, invariant with respect to deformations of Galilei algebra (which include most of noncompact simple Lie algebras). Prove that for any of these algebras it is possible to make the equations of motion for a system of harmonic or Pais-Uhlenbeck oscillators linear. Apply these results to particular algebras (including G2). 

    Study the N=4 supersymmetric mechanics of many particles on curved spaces: generalize the necessary conditions for supersymmetry, including the WDVV equations, find the condition for acceptable potentials, solve them in particular cases. 

    It is planned to obtain exact solutions for quantum problem of harmonic oscillator on two-sheeted hyperboloid SO(3,1)/SO(3) in four coordinate systems: spherical, polar-cylindrical, equidistant-cylindrical and equidistant, and to find the coefficients of inter-basis expansion between given coordinate systems. It is also planned to find a full solution for classical problems of Kepler-Coulomb and harmonic oscillator on one-sheeted hyperboloid SO(3,1)/SO(2,1), by solving the Hamilton-Jacobi equations, and constructing the trajectories of motion. 

    Study of compact objects in modified theories of gravity. 

    Development of new methods for processing and analysis of observational data from detectors of gravitational waves. 

    Development of the theory and applications of Heun’s functions in problems of mathematical physics and theory of gravity. 

  • The two-loop quantum calculations in N=(1,1) 6D supersymmetric Yang-Mills theory will be preformed in the harmonic superspace approach: the question of UV divergences and finite contributions to the effective action will be elucidated. There will be constructed all independent invariants of canonical dimension d=12 and the issue of their (as well as of higher-dimensional invariants) possible application for constructing 6D Born-Infeld theory with the manifest N=(1,0) and hidden N=(1,1) 6D supersymmetries. 

    There will be constructed new SU(2|2) and SU(4|2) supersymmetric extensions of the Calogero-Moser type models as deformations of N=4 and N=8 supersymmetric extensions, the issue of their integrability and relationships with the matrix models of string theory will be studied. 

    The study of 6D supergravity models in the off-shell N = (1; 0) and on-shell N = (1; 1) 6D harmonic superspaces will be started. The constraints of N = (1; 1) 6D supergravity will be solved in terms of N = (1; 0) superfields. 

    Construction of superfield action for the many-particle systems with N=4 and N=8 deformed supersym-metries. Superfield formulation of sigma model with Wess-Zumino term possessing the N=4 and N=8 deformed supersymmetries and describing the interaction of the spinning particle with an external gauge background. 

    Construction of models for spinning particles and superparticles using momentum twistors. Obtaining of transition amplitudes from the BFV-BRST path integral. 

    Definition of geometries described by N=4 supersymmetric quantum mechanical sigma models with a variety of dynamical, semi-dynamical and gauge supermultiplets. Determination of the type of supercharges for different geometries. 

    Construction of new hairy black holes linked to charged scalar clouds in the Kerr-Newman space-time. Investigation of the near BPS spinning self-gravitating Skyrmions. Construction of spinning black holes with the BPS Skyrme hair. 

  • It is planned to study various boundary effects (the Casimir effect for instance) in conformal theories, and their possible holographic duals in gravity theories to comprehend the peculiarities of their strong coupling regime. To this end the Casimir energy will be derived in free conformal theories with D=3,4,6 which obey the boundary conditions preserving conformal invariance at boundaries of various geometries. Specifically, in d=4 the calculation will be performed for N=4 super Yang-Mills theory. The results will be used to choose among different holographic descriptions those reproducing the Casimir energy for conformal theories with boundaries. 

    Vacuum fluctuations of spinor and vector fields in the lattice background of n-dimensional delta function potentials will be studied. Similar two-dimensional systems have attached recent attention related to the description of dispersion forces between polarizable sheets, for example graphene layers. The research demands the development of differential operator’s self-ajoint extensions, and spectral geometry, specifically, spectral zeta functions and heat-kernel expansions in singular background or with singular potential. 

    By making use of the two-time temperature Green functions, the vacuum friction force between macroscopic bodies will be calculated with account of all orders in the relative velocity of the bodies. 

    We plan to perform the phase space analysis of some realistic f(R)-gravity models. We also plan to calculate the cosmological perturbations in such kind of models. 

    Studying of scalar-tensor teleparallel gravity models and calculation of cosmological perturbations in such kind of models will be performed. 

    It is planned to study gravity model based on a nonlinear realization of affine and conformal groups. Study of the model’s quantum features and renormalization properties in first and second perturbation theory order. 

    Study of Horndeski gravity model’s features. 

    Investigation of the mass-inflation phenomenon on Cauchy horizon of black holes depending on their electric and magnetic charges, angular momenta and presence of hairs, both in Einstein gravity and in gravity theories with non-minimal coupling. Such investigation promotes our understanding of singularity issues in solutions to gravity theories. 

    Investigation of the Horndeski models with Maxwell and Yang-Mills fields applied to black holes and cosmologies. In cosmologies such theories attracted a lot of interest because the corresponding lagrangian degenerates on de Sitter background. Recently we have shown that the presence of such quasiattractor gives rise to natural finite-time inflation in Friedmann cosmology with SU(2) Yang-Mills field. It is planned to continue our investigation of these models in the first-order (Einstein-Palatini) formalism, when connection is treated as an independent variable. For a theories with non-minimal coupling of matter to gravity there is no a priori reason considering the metric-compatible connection, which leads to diverse dynamical models with new solutions. 

    Exact Stephani solutions with variable spatial curvature will be studied, their possible impact on inflationary cosmology and general topological properties will be investigated. Question of cosmological horizon in the Einstein-Straus vacuole model and Lemaitre-Tolman-Bondi model will be studied. 

    Prospects for the formation of structures in the inhomogeneous models will be examined, observable cosmological parameters will be evaluated and experimental data will be fitted. The Stephani and CDM cosmological models will be compared from the phenomenological point of view. 

    Mannheim's conformal gravity will be analyzed, galactic rotation curves without presence of dark matter in light of up-to-date cosmological measurements will be obtained. Internal structure of the Mannheim's theory, problems with unitarity, and its critical evaluation as a possible candidate for quantum gravity will be analyzed. 



List of Activities
  Activity or experiment Leaders
 
  Laboratory or other 
Division of JINR
Main researchers
1.   Quantum groups
and integrable systems
A.P. Isaev  
 BLTP   P. Fiziev,  J. Fuksa,  A.A. Golubtsova,  S.O. Krivonos,  N.Yu. Kozyrev,  V.K. Mitrjushkin,  D.R. Petrosyan,  G.S. Pogosyan,  A.V. Silantyev,  N.A. Tyurin + 1 student
 UC   S.Z. Pakuliak
2.   Supersymmetry E.A. Ivanov  
 BLTP   S.A. Fedoruk,  M. Pientek,  A. Pietrikovsky,  I.B. Samsonov,  S.S. Sidorov,  Ya.M. Shnir,  A.O.Sutulin
3.   Quantum gravity,
cosmology and strings
A.T. Filippov
V.V. Nesterenko
A.S. Sorin
 
 BLTP   B.M. Barbashov,  I. Bormotova,  E.A. Davydov,  B.N. Latosh,  A.B. Pestov,  I.G. Pirozhenko,  E.A. Tagirov,  P.V. Tretyakov,  P. Yaluvkova + 3 students
 Univ   D.V. Fursaev
 LIT   I.L. Bogoliubsky,  A.M. Chervyakov
 VBLHEP   E.E. Donets

 

Collaboration
Country or International
Organization
City Institute or Laboratory
Armenia Yerevan YSU  
Australia Sydney Univ.  
  Perth UWA  
Austria Vienna TU Wien  
Brazil Sao Paulo, SP USP  
  Juiz de Fora, MG UFJF  
Bulgaria Sofia INRNE BAS  
    SU  
Canada Montreal McGill  
    UdeM  
  Edmonton U of A  
  Vancouver TRIUMF  
CERN Geneva CERN  
Czech Republic Opava SlU  
  Prague CTU  
    CU  
  Rez NPI ASCR  
France Annecy-le-Vieux LAPP  
  Dijon UB  
    IMB  
  Lyon ENS Lyon  
  Marseille CPT  
  Nantes SUBATECH  
  Paris ENS  
    LUTH  
    LPTHE  
  Palaiseau Polytech  
  Valenciennes UVHC  
Germany Berlin FU Berlin  
    MBI  
  Bielefeld Univ.  
  Bonn UniBonn  
  Dortmund TU Dortmund  
  Hannover LUH  
  Jena Univ.  
  Leipzig UoC  
  Munich MPI-P  
  Oldenburg IPO  
  Potsdam AEI  
Greece Athens UoA  
Hungary Budapest Wigner RCP  
ICTP Trieste ICTP  
India Calcutta BNC  
    IACS  
  Chennai IMSc  
Italy Bari INFN  
  Frascati INFN LNF  
  Naples INFN  
  Padua UniPd  
  Pavia INFN  
  Pisa INFN  
  Salerno UNISA  
  Trieste SISSA/ISAS  
  Turin UniTo  
Japan Fukuoka Kyushu Univ.  
  Kyoto KSU  
    RIMS  
    YITP  
  Tsukuba KEK  
  Fukusima Fukusima Univ.  
  Tokyo UT  
Luxembourg Luxembourg Univ.  
Norway Trondheim NTNU  
Poland Warsaw NCAC PAS  
    UW  
  Krakow JU  
    NINP PAS  
  Lodz UL  
  Wroclaw UW  
Romania Bucharest IFIN-HH  
Russia Moscow ITEP  
    LPI RAS  
    MSU  
    MI RAS  
    NRU HSE  
    VNIIMS  
    PFUR  
    SAI MSU  
  Moscow, Troitsk INR RAS  
  Chernogolovka LITP RAS  
  Dolgoprudny MIPT  
  Kazan KFU  
  Novosibirsk NSU  
  Protvino IHEP  
  St. Petersburg PDMI RAS  
    SPbSU  
  Tomsk TPU  
    TSPU  
Serbia Belgrade IPB  
    Univ.  
Spain Bilbao UPV/EHU  
  Barcelona IEEC-CSIC  
  Valencia IFIC  
  Madrid ETSIAE  
Turkey Istanbul BU  
  Izmir IZTECH  
Ukraine Kiev BITP NASU  
  Kharkov NSC KIPT  
United Kingdom London Imperial College  
  Cambridge Univ.  
  Durham Univ.  
  Liverpool Univ.  
  Southampton Univ.  
  York Univ.  
  Glasgow U of G  
  Leeds UL  
  Brighton US  
USA New York, NY CUNY  
    RU  
    SUNY  
  Cincinnati, OH UC  
  College Park, MD UMD  
  Coral Gables, FL UM  
  Minneapolis, MN U of M  
  Norman, OK OU  
  Philadelphia, PA Penn  
  Piscataway, NJ Rutgers  
  Rochester, NY UR

 

 ОБЪЕДИНЕННЫЙ  ИНСТИТУТ  ЯДЕРНЫХ  ИССЛЕДОВАНИЙ

 

ПРОБЛЕМНО-ТЕМАТИЧЕСКИЙ ПЛАН 
НАУЧНО-ИССЛЕДОВАТЕЛЬСКИХ РАБОТ
И МЕЖДУНАРОДНОГО СОТРУДНИЧЕСТВА
ОБЪЕДИНЕННОГО ИНСТИТУТА
ЯДЕРНЫХ ИССЛЕДОВАНИЙ
НА 2018 ГОД

 

 

Теоретическая физика (01)
Физика элементарных частиц и релятивистская ядерная физика (02)
Ядерная физика (03)
Физика конденсированных сред, радиационные и радиобиологические исследования (04)
Сети, компьютинг, вычислительная физика (05)
Образовательная программа (06)

 

Теоретическая физика (01)

01-3-1113-2014/2018 Теория фундаментальных взаимодействий Казаков Д.И. 
Теряев О.В.
Aрбузов А.Б.
01-3-1114-2014/2018 Теория структуры ядра и ядерных реакций Воронов В.В. 
Вдовин А.И. 
Антоненко Н.В.
01-3-1115-2014/2018 Теория конденсированных сред Осипов В.А.
Поволоцкий А.М.
01-3-1116-2014/2018 Современная математическая физика:
струны и гравитация, суперсимметрия, интегрируемость
Исаев А.П.
Сорин А.С.
Кривонос С.О.
01-3-1117-2014/2018 Дубненская международная школа современной 
теоретической физики (DIAS-TH)
Сорин А.С.
Воронов В.В.

Физика элементарных частиц и релятивистская ядерная физика (02)

02-2-1123-2015/2019 Участие ОИЯИ в программе физических исследований на установке BES-III Жемчугов А.С.
02-0-1081-2009/2019 ATLAS.
Модернизация установки и физические исследования на LHC
Бедняков В.А.
02-2-1124-2015/2020 Поиск новой физики в экспериментах на интенсивных пучках мюонов Глаголев В.В.
02-2-1134-2018/2019 Эксперимент COMET на ускорительном комплексе J-PARC Цамалаидзе З.
02-2-1099-2010/2018 Исследование нейтринных осцилляций Наумов Д.В. 
Ольшевский А.Г.
02-0-1108-2011/2019 Эксперимент PANDA на ускорительном комплексе FAIR Алексеев Г.Д.
02-2-1125-2015/2020 Астрофизические исследования в эксперименте TAIGA Ткачев Л.Г.
02-1-1106-2011/2019 Исследования сжатой барионной материи на ускорительном комплексе GSI Ладыгин В.П.
Иванов В.В.
02-1-1096-2010/2019 Изучение редких распадов заряженных каонов и поиск темного сектора в экспериментах на SPS ЦЕРН Кекелидзе В.Д.
Потребеников Ю.К.
02-0-1083-2009/2019 CMS. Компактный мюонный соленоид на LHC Зарубин А.В.
02-0-1085-2009/2019 Изучение структуры нуклонов и адронов в ЦЕРН Нагайцев А.П.
02-1-1086-2009/2020 Странность в адронной материи и исследование неупругих реакций вблизи кинематических границ Строковский Е.А.
Кокоулина Е.С.
Кривенков Д.О.
02-0-1065-2007/2019 Развитие экспериментальной базы ОИЯИ для получения интенсивных пучков тяжелых ионов и поляризованных ядер с целью поиска смешанной фазы ядерной материи и исследования поляризационных эффектов в области энергий до sqrt= 11 GeV Кекелидзе В.Д.
Сорин А.С.
02-0-1127-2016/2018 Перспективные разработки систем ускорителей и коллайдеров нового поколения для фундаментальных и прикладных целей Ширков Г.Д.
02-1-1097-2010/2018 Изучение поляризационных явлений и спиновых эффектов
на ускорительном комплексе Нуклотрон--М ОИЯИ
Коваленко А.Д.
02-1-1087-2009/2020 Исследования по физике релятивистских тяжелых и легких ионов на ускорительных комплексах Нуклотрон/NICA ОИЯИ и SPS ЦЕРН Малахов А.И.
02-0-1066-2007/2020 Исследование свойств ядерной материи и структуры частиц на коллайдере релятивистских ядер и поляризованных протонов Ледницки Р.
Панебратцев Ю.А.
02-1-1088-2009/2019 ALICE. Исследование взаимодействий пучков тяжелых ионов и протонов на LHC Водопьянов А.С.
02-1-1107-2011/2019 Разработка и создание прототипа комплекса для радиотерапии и прикладных исследований на пучках тяжелых ионов Нуклотрона-М Тютюнников С.И.

Ядерная физика (03)

03-0-1129-2017/2021 Развитие ускорительного комплекса и экспериментальных установок ЛЯР (DRIBs-III) Гульбекян Г.Г.
Дмитриев С.Н.
Иткис М.Г.
03-5-1130-2017/2021 Синтез и свойства сверхтяжелых элементов, структура ядер на границах нуклонной стабильности Иткис М.Г.
03-2-1100-2010/2018 Неускорительная нейтринная физика и астрофизика Бруданин В.Б.
Ковалик А.
Якушев Е.А.
03-2-1102-2010/2018 Совершенствование Фазотрона ЛЯП 
и разработка циклотронов для физических и прикладных исследований
Карамышева Г.А.
Яковенко С.Л.
03-4-1128-2017/2019 Исследования взаимодействия нейтронов с ядрами и свойств нейтрона Швецов В.Н.

Физика конденсированных сред, радиационные и радиобиологические исследования (04)

04-4-1121-2015/2020 Исследования конденсированного состояния вещества с использованием современных методов нейтронографии Козленко Д.П.
Аксёнов В.Л. 
Балагуров А.М.
04-4-1105-2011/2019 Развитие исследовательской ядерной установки ИБР-2 с комплексом криогенных замедлителей нейтронов Белушкин А.В. 
Виноградов А.В.
04-4-1122-2015/2020 Развитие экспериментальной базы для проведения исследований конденсированных сред на пучках ИЯУ ИБР-2 Куликов С.А. 
Приходько В.И.
04-4-1133-2018/2020 Современные тенденции и разработки в области Рамановской микроспектроскопии и фотолюминесценции для исследований конденсированных сред Арзуманян Г.М.
Кучерка Н.
04-5-1131-2017/2021 Радиационно-физические, радиохимические и нанотехнологические исследования на пучках ускоренных тяжелых ионов Дмитриев С.Н. 
Апель П.Ю.
04-9-1077-2015/2020 Исследования биологического действия тяжелых заряженных частиц различных энергий Красавин Е.А. 
Тимошенко Г.Н.
04-9-1112-2013/2019 Исследование космического вещества на Земле и в ближайшем космосе; исследование биологических и геохимических особенностей ранней Земли Красавин Е.А. 
Розанов А.Ю.
Швецов В.Н.
04-2-1132-2017/2019 Проведение медико-биологических и радиационно-генетических исследований с использованием различных типов ионизирующих излучений Мицын Г.В.
04-2-1126-2015/2020 Новые полупроводниковые детекторы для фундаментальных и прикладных исследований Шелков Г.А.

Сети, компьютинг, вычислительная физика (05)

05-6-1118-2014/2019 Информационно-вычислительная инфраструктура ОИЯИ Кореньков В.В.
05-6-1119-2014/2019 Методы, алгоритмы и программное обеспечение для моделирования физических систем, математической обработки и анализа экспериментальных данных Адам Г.
Зрелов П.В.
05-8-1037-2001/2019 Аналитические и методические разработки для определения перспектив научных исследований и сотрудничества по основным направлениям развития ОИЯИ. Организация международного сотрудничества Сорин А.С.

Образовательная программа (06)

06-0-1120-2014/2018 Организация, обеспечение и развитие образовательной программы ОИЯИ Матвеев В.А.
Пакуляк С.З.

 

 

JOINT INSTITUTE FOR NUCLEAR RESEARCH 

TOPICAL PLAN
FOR JINR RESEARCH 
AND INTERNATIONAL COOPERATION 
2018



Theoretical Physics (01)
Elementary Particle Physics and Relativistic Nuclear Physics (02)
Nuclear Physics (03)
Condensed Matter Physics, Radiation and Radiobiological Research (04)
Networking, Computing, Computational Physics (05)
Educational Programme (06)

Theoretical Physics (01)

 01-3-1113-2014/2018 Theory of Fundamental Interactions D.I. Kazakov 
O.V. Teryaev
A.B. Arbuzov
01-3-1114-2014/2018 Theory of Nuclear Structure and Nuclear Reactions V.V. Voronov
A.I. Vdovin
N.V. Antonenko
01-3-1115-2014/2018 Theory of Condensed Matter V.A. Osipov
A.M. Povolotskii
01-3-1116-2014/2018 Modern Mathematical Physics:
Strings and Gravity, Supersymmetry, Integrability
A.P. Isaev
A.S. Sorin
S.O. Krivonos
01-3-1117-2014/2018 Dubna International Advanced School of Theoretical Physics
(DIAS-TH)
A.S. Sorin
V.V. Voronov

Elementary Particle Physics and Relativistic Nuclear Physics (02)

02-2-1123-2015/2019 JINR's Participation at the BES-III Physics Research Program A.S. Zhemchugov
02-0-1081-2009/2019 ATLAS. 
Upgrade of the ATLAS Detector and Physics Research at the LHC
V.A. Bednyakov
02-2-1124-2015/2020 Search for New Physics in Experiments with High-Intensity Muon Beams V.V. Glagolev
02-2-1134-2018/2019 Experiment COMET at J-PARC Z. Tsamalaidze
02-2-1099-2010/2018 Study of Neutrino Oscillations D.V. Naumov
A.G. Olshevskiy
02-0-1108-2011/2019 Experiment PANDA at FAIR G.D. Alexeev
02-2-1125-2015/2020 Astrophysical Studies in the Experiment TAIGA L.G. Tkatchev
02-1-1106-2011/2019 Investigations of Compressed Baryonic Matter at the GSI Accelerator Complex V.P. Ladygin
V.V. Ivanov
02-1-1096-2010/2019 Study of Rare Charged Kaon Decays and Search for Dark Sector
in Experiments at the CERN SPS
V.D. Kekelidze
Yu.K. Potrebenikov
02-0-1083-2009/2019 CMS. Compact Muon Solenoid at the LHC A.V. Zarubin
02-0-1085-2009/2019 Studies of the Nucleon and Hadron Structure at CERN A.P. Nagaytsev
02-1-1086-2009/2020 Strangeness in Hadronic Matter and Study of Inelastic Reactions Near Kinematical Borders E.A. Strokovsky
E.S. Kokoulina
D.O. Krivenkov
02-0-1065-2007/2019 Development of the JINR Basic Facility for Generation of Intense Heavy Ion and Polarized Nuclear Beams Aimed at Searching for the Mixed Phase of Nuclear Matter and Investigation of Polarization Phenomena at the Collision Energies up to  sqrt= 11 GeV V.D. Kekelidze
A.S. Sorin
02-0-1127-2016/2018 Advanced Studies on Systems of New-Generation
Accelerators and Colliders for Fundamental
and Applied Research
G.D. Shirkov
02-1-1097-2010/2018 Study of Polarization Phenomena and Spin Effects
at the JINR Nuclotron-M Facility
A.D. Kovalenko
02-1-1087-2009/2020 Research on Relativistic Heavy and Light Ion Physics. Experiments at the Accelerator Complex Nuclotron/NICA at JINR and CERN SPS A.I. Malakhov
02-0-1066-2007/2020 Investigation of the Properties of Nuclear Matter and Particle Structure at the Collider of Relativistic Nuclei and Polarized Protons R. Lednicky
Yu.A. Panebratsev
02-1-1088-2009/2019 ALICE. Study of Interactions of Heavy Ion and Proton Beams
at the LHC
A.S. Vodopyanov
02-1-1107-2011/2019 Development and Construction of the Prototype of a Complex for Radiotherapy and Applied Research with Heavy-Ion Beams at the Nuclotron-M S.I. Tyutyunnikov

Nuclear Physics (03)

03-0-1129-2017/2021 Development of the FLNR Accelerator Complex 
and Experimental Setups (DRIBS-III)
G.G. Gulbekyan
S.N. Dmitriev
M.G. Itkis
03-5-1130-2017/2021 Synthesis and Properties of Superheavy Elements, 
Structure of Nuclei at the Limits of Nucleon Stability
M.G. Itkis
03-2-1100-2010/2018 Non-Accelerator Neutrino Physics and Astrophysics V.B. Brudanin
A. Kovalik
E.A. Yakushev
03-2-1102-2010/2018 Improvement of the JINR Phasotron and Design of Cyclotrons for Fundamental and Applied Research G.A. Karamysheva 
S.L. Yakovenko
03-4-1128-2017/2019 Investigations of Neutron Nuclear Interactions 
and Properties of the Neutron
V.N. Shvetsov

Condensed Matter Physics, Radiation and Radiobiological Research (04)

04-4-1121-2015/2020 Investigations of Condensed Matter 
by Modern Neutron Scattering Methods
D.P. Kozlenko 
V.L. Aksenov 
A.M. Balagurov
04-4-1105-2011/2019 Development of the IBR-2 Facility with a Complex of Cryogenic Neutron Moderators A.V. Belushkin
A.V. Vinogradov
04-4-1122-2015/2020 Development of Experimental Facilities for Condensed Matter Investigations with Beams of the IBR-2 Facility S.A. Kulikov
V.I. Prikhodko
04-4-1133-2018/2020 Modern Trends and Developments in Raman Microspectroscopy and Photoluminescence for Condensed Matter Studies G.M. Arzumanyan
N. Kucerka
04-5-1131-2017/2021 Radiation Physics, Radiochemistry, and Nanotechnology Investigations Using Beams of Accelerated Heavy Ions S.N. Dmitriev
P.Yu. Apel
04-9-1077-2015/2020 Research on the Biological Effect of Heavy Charged Particles 
with Different Energies
E.A. Krasavin
G.N. Timoshenko
04-9-1112-2013/2019 Research on Cosmic Matter on the Earth and in Nearby Space;
Research on the Biological and Geochemical Specifics 
of the Early Earth
E.A. Krasavin
A.Yu. Rozanov 
V.N. Shvetsov
04-2-1132-2017/2019 Biomedical and Radiation-Genetic Studies Using Different Types of Ionizing Radiation G.V. Mitsyn
04-2-1126-2015/2020 Novel Semiconductor Detectors for Fundamental and Applied Research G.A. Shelkov

Networking, Computing, Computational Physics (05)

05-6-1118-2014/2019 Information and Computing Infrastructure of JINR V.V. Korenkov
05-6-1119-2014/2019 Methods, Algorithms and Software for Modeling Physical Systems, Mathematical Processing and Analysis of Experimental Data Gh. Adam
P.V. Zrelov
05-8-1037-2001/2019 Analytical and Methodological Work to Assess the Prospects
of Scientific Research and Cooperation in the Main Directions 
of JINR's Development.
Organization of International Cooperation
A.S. Sorin

Educational Programme (06)

06-0-1120-2014/2018 Organization, Support and Development 
of the JINR Educational Programme
V.A. Matveev
S.Z. Pakuliak