02-1-1065-2007/2026
   
  
NICA Complex
Design and Construction of the Complex of Accelerators,
Collider and Physics Experimental Facilities
at Extracted and Colliding Ion Beams Aimed at Studying Dense
Baryonic Matter and the Spin Structure of Nucleons and Light Ions,
and at Carrying out Applied and Innovation Projects
  
Leaders:  V.D. Kekelidze
A.S. Sorin
G.V. Trubnikov
Deputies:     A.V. Butenko
V.M. Golovatyuk
M.N. Kapishin


Participating countries and international organizations:
Armenia, Azerbaijan, Belarus, Bulgaria, China, Cuba, Czech Republic, Egypt, Germany, Georgia, Kazakhstan, Mexico, Moldova, Mongolia, Russia, Serbia, Slovakia, Uzbekistan, Chile, South Africa, Japan.

The problem under study and the main purpose of the research:
Search and investigation of phase transitions in strongly interacting nuclear matter at extremely high baryon densities, study of the nucleon spin structure, of light nuclei and polarization phenomena in few nucleon systems. Development of theoretical models of the studied processes and theoretical support of the experiments. Development of the Nuclotron accelerator complex as a basic facility for studying relativistic nuclear collisions in the range of atomic masses A = 1÷197. Investigation of reaction dynamics and studing modifications of hadron properties in nuclear matter, near-threshold strange hyperons production and search for hyper nuclei in interactions of the Nuclotron extracted ion beams with fixed targets at the BM@N detector. Development and stage-by-stage creation of the NICA heavy ion collider accelerator complex, the multi-purpose detector (MPD/NICA) and spin physics detector (SPD/NICA) for experiments with colliding heavy ions beams. Modernization of extraction beam lines and Nuclotron magnetic system. Carrying out of experiments with ion beams and polarized proton and deuteron beams at the Nuclotron. Development of the infrastructure for applied research at NICA heavy ion beams.

 

Projects:
  Name of the projects  Project Leaders Project code
1. Nuclotron-NICA A.V. Butenko
H.G. Khodzhibagiyan
Scientific leader:
I.N. Meshkov

 02-1-1065-1-2011/2027
2. BM@N M.N. Kapishin

 02-1-1065-2-2012/2026
3. MPD V.M. Golovatyuk
V.D. Kekelidze
Deputy:
V.G. Riabov

 02-1-1065-3-2011/2025
4. SPD A.V. Guskov
Deputy:
V.P. Ladygin		 02-1-1065-4-2020/2029

 Projects:

  Name of the project Project Leaders
Status
Laboratory (Subdivision) 
                   Responsible from laboratories		  
1.                Nuclotron-NICA A.V. Butenko
H.G. Khodzhibagiyan
Scientific leader:
I.N. Meshkov
Realization
1.1. NICA injection complex: technical design preparation and construction of the NICA injection complex:(sources of heavy ions and polarized light nuclei, HILAC linear
accelerators of heavy ions and light nuclei of beam transporting to the Nuclotron)

 V.A. Lebedev
V.A. Monchinsky
E.M. Syresin
A.V. Tuzikov
Realization
1.1.a. Commissioning of the heavy ion
source (KRION)

 E.E. Donets
Realization
1.1.b. Upgrade the polarized proton
and deuteron source (SPI)

 V.V. Fimushkin
R.A. Kuzyakin
Realization
1.1.c. Development and construction of the beam injection systems and beam transportation channels. Development of the beam control
and diagnostics systems		 D.E. Donets
E.V. Gorbachev
A.V. Tuzikov
Realization
1.1.d. Design and start of construction the new proton and light ion injector LILAC A.V. Butenko
K.A. Levterov
B.V. Golovensky
E.M. Syresin
Realization
VBLHEP V.P. Akimov, M.Yu. Averyanov, A.M. Bazanov, S.A. Besfamilniy, A.S. Bogatov, A.Yu. Boytsov, S.A. Burashnikov, A.M. Butenko, V.V. Chumakov, V.V. Fimushkin, A.R. Galimov, N.I. Garanzha, S.V. Gudkov, J. Guran, I.L. Guryleva, E.E. Donets, A.M. Ivanov, K.A. Ivshin, V.N. Karpinsky, A.E. Kirichenko, S.S. Kiselev, V.V. Kobets, S.Yu. Kolesnikov, A.B. Kolesov, O.S. Kozlov, A.A. Kozlovsky, M.V. Kulikov, N.A. Kulikov, V.N. Kulikov, O.A. Kunchenko, R.A. Kuziakin, S.M. Kuznetsov, D.Yu. Legontsev, D.S. Letkin, D.O. Leushin, D.A. Luosev, A.V. Lushin, N.A. Malyshev, A.A. Martynov, S.V. Mikhailov, V.V. Myalkovsky, A.V. Nesterov, O.A. Parfenov, A.V. Peltikhin, V.V. Peshkov, A.A. Pogodin, D.O. Ponkin, R.G. Pushkar, A.Yu. Ramzdorf, D.N. Rassadov, Yu.V. Riazantsev, S.S. Romanenko, V.V. Salnikov, V.O. Shapovalov, I.V. Shirikov, A.M. Shumkov, V.B. Shutov, P.V. Sinuygin, A.A. Slivin, A.N. Soloviev, P.N. Sotnikov, A.S. Spiridonov, A.N. Svidetelev, S.B. Timofeev, A.M. Tikhomirov, E.V. Tikhonov, V.I. Tiulkin, A.V. Tsvetkov, E.D. Tsyplakov, A.V. Vadeev, A .A. Voronin,  A.Yu. Zakharov, I.N. Zhabin, L.V. Zinoviev
1.2. Development of the NICA Booster and its technological systems A.V. Butenko
V.A. Lebedev
I.N. Meshkov
E.M. Syresin
A.O. Sidorin
Realization
1.2.a. Magnet cryostat system, vacuum system, system of electron cooling A.R. Galimov
V.S. Shpakov
Realization
1.2.b. Power supply and energy evacuation system E.V. Ivanov
V.N. Karpinsky
Realization
1.2.c. RF accelerating system of the Booster

 O.I. Brovko
Realization
1.2.d. Diagnostics, injection, correction of optics, beam extraction and transport systems

 A.V. Tuzikov
E.V. Gorbachev
Realization
VBLHEP N.N. Agapov, A.V. Alfeev, V.A. Andreev, A.S. Averichev, M.Yu. Averyanov, A.A. Baldin, A.M. Bazanov, A.V. Beloborodov, D. N. Bogoslovsky, V.P. Chernyaev, D.E. Donets, V.M. Drobin, A.A. Fateev, S.A. Goncharov, A.Yu. Grebentsov, I.L. Guryleva,  G.E. Ivanov, O. Kazinova, P.R. Kharyuzov, A.E. Kirichenko, S.Yu. Kolesnikov, A.V. Konstantinov, A. I. Korobkov, D.S. Korovkin, S.A. Korovkin, V.V. Kosachev, S.A. Kostromin, E.V. Kostyukhov, O.S. Kozlov, A.V. Kudashkin, E.A. . Kulikov, O.A. Kunchenko, G.L. Kuznetsov, N.I. Lebedev, A.V. Lushin, S.V. Mikhailov, V.A. Mikhailov, V.V. Myalkovsky, A.V. Nesterov, D.N. Nikiforov, A.L. Osipenkov, K.G. Osipov, A.V. Pel'tikhin, M.V. Petrov, G.A. Petrovsky, A.V. Philippov, N.V. Pilyar, R.V. Pivin, O.V. Prozorov, S.V. Romanov, P.A. Rukoyatkin, T.V. Rukoyatkina, G.S. Sedykh, N.V. Semin, A.S. Sergeev, A.V. Shabunov, M.M. Shandov, A.A. Shurygin, V.S. Shvetsov, A.I. Sidorov, Z.I. Smirnova, A.N. Svidetelev, V.V. Tarasov, A.M. Tikhomirov, N.D. Topilin, Yu.A. Tumanova, V.I. Tyulkin, B.V. Vasilishin, A.I. Zagray, A.Yu. Zakharov
 
DLNP E.V. Akhmanova, V.I. Khilinov, O.S. Orlov, A.Yu. Rudakov, N.A. Rybakov, A.A. Sidorin, S.L. Yakovenko 
1.3. Development and renovation of the Nuclotron A.V. Butenko
A.O. Sidorin
E.M. Syresin 
H.G. Khodzhibagiyan
Projecting
Realization
1.3.a. Magnet cryostat system, vacuum system A.R. Galimov
Projecting
Realization
1.3.b. Power supply and energy evacuation system E.V. Ivanov
V.N. Karpinsky
Projecting
Realization
1.3.c. RF accelerating system of the Nuclotron O.I. Brovko
Projecting
Realization
1.3.d. Diagnostics, injection, correction of optics, beam extraction and transportation systems

 E.V. Gorbachev
P.A. Rukoyatkin
Projecting
Realization
VBLHEP R.M. Akhmadrizyalov, A.S. Aksenov, A.V. Alfeev, V.S. Alexandrov, V.A. Andreev, S.A. Arefiev, A.S. Averichev, A.M. Bazanov, E.S. Belyakov, S.A. Besfamilny, Yu.G. Bespalov, N.A. Blinov, A.S. Bogatov, L.G. Bogdan, V.V. Borisov, A.Yu. Boytsov, A.P. Bulakh, A.M. Butenko, E.A. Butenko, P.S. Cherkasov, A.Yu. Chmyrev, V.V. Chudakov, V.V. Chumakov, S.A. Dolgiy, D.E. Donets, E.E. Donets, I.I. Donguzov, A.M. Donyagin, G.L. Dorofeev, V.M. Drobin, A.V. Eliseev, V.G. Elkin, A.E. Emelianov, R.O. Esaulkov, A.A. Fateev, A.A. Feoktistov, G.A. Filatov, V.V. Fimushkin, A.V. Gaevsky, V.E. Galkin, F.N. Ganyushkin, N.I. Garanzha, A.A. Garkin, B.V. Golovensky, I.I. Golubev, O.M. Golubitsky, S.A. Goncharov, S.P. Gorelikov, A.V. Grebennikov, A.Yu. Grebentsov, D.M. Gribov, S.V. Gudkov, S.V. Gudkov, M.V. Gulina, K.N. Gurylev, I.L. Guryleva, S.A. Gusev, G.E. Ivanov, A.N. Karpuk, V.A. Kashirin, A.E. Kirichenko, S.V. Kirov, D.I. Klimansky, A.S. Klyagin, V.V. Kobets, A.B. Kolesov, A.V. Konstantinov, A.V. Kopchenov, M.Yu. Korobitsyna, S.A. Korovkin, V.S. Korolev, G.E. Koroleva, V.V. Kosachev, V.A. Kosinov, I.K. Kovrizhina, A.P. Kozlov, O.S. Kozlov, A.V. Kudashkin, T.G. Kudinova, P.I. Kudryashov, T.A. Kulaeva, E.A. Kulikov, M.V. Kulikov, N.A. Kulikov, O.A. Kunchenko, V.V. Kuptsov, L.V. Kutuzova, A.A. Kuznetsov, A.A. Kuznetsov, G.L. Kuznetsov, D.Yu. Kuznetsov, M.I. Kuznetsov, R.A. Kuzyakin, R.V. Lapin, I.N. Lebedev, N.I. Lebedev, V.A. Lebedev, I.G. Lebedeva, M.P. Lepkin, D.S. Letkin, D.O. Leushin, K.A. Levterov, D.V. Lobanov, N.A. Lopatin, K.V. Loshmanova, V.O. Luchentsov, D.A. Luosev, A.V. Lushin, V.M. Lutsenko, A.M. Malyshev, A.A. Martynov, R.N. Masalov, E.S. Matyukhanov, A.A. Merkuriev, M.Yu. Meshenkov, E.A. Mikhailov, S.V. Mikhailov, V.A. Mikhailov, Yu.A. Mitrofanova, D.V. Monakhov, V.A. Monchinsky, D.M. Morozov, V.V. Morozova, V.A. Mosalov, V.V. Myalkovsky, O.E. Naumov, S.I. Nefediev, O.A. Nefedov, E.A. Negey, A.V. Nesterov, N.A. Newgate, D.N. Nikiforov, A.M. Nikitin, I. Yu. Nikolaichuk, K.A. Nosov, M.S. Novikov, S.Yu. Novozhilov, Yu.M. Nozhenko, M.N. Omelianenko, A.L. Osipenkov, O.A. Parfenov, V.V. Pashinsky, A.V. Peltikhin, V.V. Peshkov, L.A. Peshkova, I.M. Petrov, M.V. Petrov, V.D. Petrov, A.S. Petukhov, A.V. Philippov, M.N. Philippov, N.A. Philippov, E.Yu. Philippova, N.V. Pilyar, R.V. Pivin, A.A. Pogodin, V.K. Polyakova, D.O. Ponkin, A.A. Ponomarev, O.V. Prozorov, R.G. Pushkar, A.Yu. Ramsdorf, D.N. Rassadov, I.N. Repkin, S.V. Romanov, T.V. Rukoyatkina, S.A. Rumyantsev, D.V. Ryzhov, D.Yu. Saveliev, M.K. Savenkova, A.N. Scherbakov, G.S. Sedykh, A.V. Sergeev, E.V. Sergeeva, V.G. Shabratov, M.M. Shandov, A.V. Shemchuk, I.V. Shirikov, E.E. Shirkova, A.M. Shumkov, V.M. Shumkov, V.B. Shutov, A.A. Shurygin, D.S. Shvidky, T.V. Sidorenkov, A.I. Sidorov, P.A. Sidorov, V.O. Sidorova, A.V. Skrypnik, A.A. Slivin, S.A. Smirnov, V.L. Smirnov, Z.I. Smirnova, R.A. Smolkov, A.G. Sorokin, O.Yu. Stankov, L.E. Sveshnikova, A.L. Svetov, A.N. Svidetelev, M.I. Svideteleva, R.V. Talysin, V.V. Tarasov, A.M. Tihomirov, E.V. Tikhonov, A.B. Tischenko, N.V. Travin, A.A. Troitsky, A.V. Tsvetkov, Yu.A. Tsvetkova. V.I. Tyulkin, A.V. Vadeev, B.V. Vasilishin, A.A. Volodin, A.A. Voronin, N.A. Voroshilov, M.I. Yablochkin, M.V. Yurkov, A.Yu. Zakharov, A.I. Zagray, L.V. Zinoviev, D.A. Zolotykh, A.G. Zorin, I.N. Zhabin, V.M. Zhabitsky, A.S. Zhbankov
1.4. Technical design, R&D of technological systems and construction of the NICA heavy
ion collider with an energy of
ECM= 4-11 GeV and an average luminosity of 1· 10 27 cм -2с -1
and light polarised nuclei with a
luminosity of 1·10 32 cм -2с -1 (by protons, at ECM=27 GeV)

 S.A. Kostromin
V.A. Lebedev
I.N. Meshkov
A.O. Sidorin
E.M. Syresin
Projecting
Realization
1.4.a. Magnet cryostat and vacuum systems

 A.R. Galimov
H.G. Khodzhibagiyan
Realization
1.4.b. Power supply and energy evacuation system

 E.V. Ivanov
V.N. Karpinsky
Realization
1.4.c. RF system of the Collider O.I. Brovko
A.Yu. Grebentsov
Realization
1.4.d. Beam diagnostics, injection and transportation systems A.V. Tuzikov
E.V. Gorbachev
Projecting
Realization
1.4.e. Cooling and feedback systems for charged particle beams I.N. Meshkov
A.O. Sidorin
V.A. Lebedev
Projecting
Realization
1.4.f. Systems of proton and deuteron polarization monitoring and control S.A. Kostromin
V.V. Fimushkin
Projecting
Realization
VBLHEP R.M. Akhmadrizyalov, A.S. Aksenov, A.V. Alfeev, V.S. Alexandrov, V.A. Andreev, S.A. Arefiev, A.S. Averichev, A.M. Bazanov, E.S. Belyakov, S.A. Besfamilny, Yu.G. Bespalov, N.A. Blinov, A.S. Bogatov, L.G. Bogdan, V.V. Borisov, A.Yu. Boytsov, O.I. Brovko, A.P. Bulakh, A.M. Butenko, E.A. Butenko, P.S. Cherkasov, А.А. Chernova, A.Yu. Chmyrev, V.V. Chudakov, V.V. Chumakov, S.A. Dolgiy, D.E. Donets, E.E. Donets, I.I. Donguzov, A.M. Donyagin, G.L. Dorofeev, V.M. Drobin, A.V. Eliseev, V.G. Elkin, A.E. Emelianov, R.O. Esaulkov, A.A. Fateev, A.A. Feoktistov, G.A. Filatov, A.V. Gaevsky, V.E. Galkin, F.N. Ganyushkin, N.I. Garanzha, A.A. Garkin, B.V. Golovensky, I.I. Golubev, O.M. Golubitsky, S.A. Goncharov, E.V. Gorbachev, S.P. Gorelikov, A.V. Grebennikov, A.Yu. Grebentsov, D.M. Gribov, S.V. Gudkov, S.V. Gudkov, M.V. Gulina, K.N. Gurylev, I.L. Guryleva, S.A. Gusev, E.V. Ivanov, G.E. Ivanov, A.N. Karpuk, V.A. Kashirin, A.E. Kirichenko, S.V. Kirov, D.I. Klimansky, A.S. Klyagin, V.V. Kobets, A.B. Kolesov, A.V. Konstantinov, A.V. Kopchenov, M.Yu. Korobitsyna, S.A. Korovkin, V.S. Korolev, G.E. Koroleva, V.V. Kosachev, V.A. Kosinov, I.K. Kovrizhina, A.P. Kozlov, O.S. Kozlov, A.V. Kudashkin, T.G. Kudinova, P.I. Kudryashov, R.I. Kukushkina, T.A. Kulaeva, E.A. Kulikov, M.V. Kulikov, N.A. Kulikov, O.A. Kunchenko, V.V. Kuptsov, L.V. Kutuzova, A.A. Kuznetsov, A.A. Kuznetsov, G.L. Kuznetsov, D.Yu. Kuznetsov, M.I. Kuznetsov, R.A. Kuzyakin, R.V. Lapin, I.N. Lebedev, N.I. Lebedev, I.G. Lebedeva, M.P. Lepkin, D.S. Letkin, D.O. Leushin, K.A. Levterov, D.V. Lobanov, N.A. Lopatin, K.V. Loshmanova, V.O. Luchentsov, D.A. Luosev, A.V. Lushin, V.M. Lutsenko, A.M. Malyshev, A.A. Martynov, R.N. Masalov, E.S. Matyukhanov, A.A. Merkuriev, M.Yu. Meshenkov, E.A. Mikhailov, S.V. Mikhailov, V.A. Mikhailov, Yu.A. Mitrofanova, D.V. Monakhov, V.A. Monchinsky, D.M. Morozov, V.V. Morozova, V.A. Mosalov, V.V. Myalkovsky, O.E. Naumov, D.V. Neapolitansky, S.I. Nefediev, O.A. Nefedov, E.A. Negey, A.V. Nesterov, N.A. Newgate, D.N. Nikiforov, A.M. Nikitin, I. Yu. Nikolaichuk, K.A. Nosov, M.S. Novikov, S.Yu. Novozhilov, Yu.M. Nozhenko, M.N. Omelianenko, A.L. Osipenkov, O.A. Parfenov, V.V. Pashinsky, A.V. Peltikhin, V.V. Peshkov, L.A. Peshkova, I.M. Petrov, M.V. Petrov, V.D. Petrov, A.S. Petukhov, A.V. Philippov, M.N. Philippov, N.A. Philippov, E.Yu. Philippova, N.V. Pilyar, R.V. Pivin, A.A. Pogodin, V.K. Polyakova, D.O. Ponkin, A.A. Ponomarev, O.V. Prozorov, R.G. Pushkar, A.Yu. Ramsdorf, D.N. Rassadov, I.N. Repkin, S.V. Romanov, P.A. Rukoyatkin, T.V. Rukoyatkina, S.A. Rumyantsev, D.V. Ryzhov, D.Yu. Saveliev, M.K. Savenkova, A.N. Scherbakov, G.S. Sedykh, A.V. Sergeev, E.V. Sergeeva, V.G. Shabratov, M.M. Shandov, A.V. Shemchuk, I.V. Shirikov, E.E. Shirkova, A.M. Shumkov, V.M. Shumkov, V.B. Shutov, A.A. Shurygin, D.S. Shvidky, T.V. Sidorenkov, A.I. Sidorov, P.A. Sidorov, V.O. Sidorova, A.V. Skrypnik, A.A. Slivin, S.A. Smirnov, V.L. Smirnov, Z.I. Smirnova, R.A. Smolkov, A.G. Sorokin, O.Yu. Stankov, L.E. Sveshnikova, A.L. Svetov, A.N. Svidetelev, M.I. Svideteleva, E.M. Syresin, R.V. Talysin, V.V. Tarasov, A.M. Tihomirov, E.V. Tikhonov, A.B. Tischenko, N.V. Travin, A.A. Troitsky, A.V. Tsvetkov, Yu.A. Tsvetkova. V.I. Tyulkin, A.V. Vadeev, B.V. Vasilishin, A.A. Volodin, A.A. Voronin, M.I. Yablochkin, M.V. Yurkov, A.Yu. Zakharov, A.I. Zagray, L.V. Zinoviev, D.A. Zolotykh, A.G. Zorin, I.N. Zhabin, V.M. Zhabitsky, A.S. Zhbankov
DLNP E.V. Akhmanova, V.I. Khilinov, O.S. Orlov, A.Yu. Rudakov, A.A. Sidorin, S.L. Yakovenko
DRB V.N. Buchnev, V.Yu. Schegolev
1.5. R&D, construction and development
of cryogenic systems

 N.N. Agapov
H.G. Khodzhibagiyan
Projecting
Realization
VBLHEP S.A. Arefiev, M.B. Basheva, D.B. Belov, V.D. Drobin, L.E. Egorova, A.E. Emelyanov, E.F. Filippova, S.G. Gorelikov, S.G. Gudkov, E.I. Ivanov, M.K. Kondratiev, A.K. Konstantinov, V.K. Kosinov, E.K. Kulikov, D.L. Lobanov, Y.M. Mitrofanova, I.P. Petrov, L.P. Peshkov, S.S. Smirnov, O.Y. Yarovikova 

Brief annotation and scientific rationale:
The development and carryout works on of the existing infrastructure of the VBLHEP accelerator complex: HILAC, Booster, Nuclotron, beam transport channels in bldg. 1, bldg. 205 and new building 17 and other systems and new equipment required for the NICA collider commissioning at project equipment configuration in 2027.

Expected results upon completion of the project:
Commissioning of the NICA complex objects at basic configuration of the collider equipment, prolongation of the experiments at fixed targets with heavy ion and light nuclei polarized beams, start the experiments at colliding beams, R&D, prototyping, testing, pre-serial magnet production for the "new" Nuclotron ring.

Expected results of the project in the current year:
Experiments with circulating in collider heavy ion beams at the kinetic energy up to 2 GeV/n with internal target and colliding beams.
2. BM@N
 M.N. Kapishin
Realization
2.1. Development of the operational area of the setup: increasing the radiation protection, improving detector subsystems and engineering infrastructure S.Yu. Anisimov
M.N. Kapishin
S.M. Piyadin
Realization
2.2. Construction of the basic detector complex of the BM@N setup M.N. Kapishin
S.M. Piyadin
Realization
2.3. Development of the technological and engineering systems, control systems and test areas of the setup

 S.Yu. Anisimov
S.M. Piyadin
N.D. Topilin
Realization
VBLHEP G.N. Agakishiev, S.V. Afanasiev, K.A. Alishina, V.I. Astakhov, V.N. Azorskiy,
V.A. Babkin, R.Barak, S.N. Bazylev, M.G. Buryakov, S.G. Buzin, A.I. Chebotov,
D.D. Chemezov, D.V. Dementiev, A.V. Dmitriev, J.R. Drnoyan, D.K. Dryablov, B.V. Dubinchik, P.O. Dulov, A.S. Egorov, D.S. Egorov, V.V. Elsha, A.A. Fedyunin, I.A. Filippov, I.R. Gabdrakhmanov, O.P. Gavrischuk, K.V. Gertsenberger, V.M. Golovatyuk, P.N. Grigoriev, I.Yu. Kapitonov, V.Yu. Karzhavin, R.R. Kattabekov, S.V. Khabarov, V.D. Kekelidze, A.Yu. Khukhaeva, A.S. Khvorostukhin, Yu.T. Kiryushin, V.I. Kolesnikov, A.A.Kolozhvari, Yu.A. Kopylov, L.D. Kovachev, Yu.S. Kovalev, I.V. Kruglova, S.N. Kuklin, E.M. Kulish, V.V. Kutergina, A.S. Kuznetsov, E.A. Ladygin, N.A. Lashmanov, R. Lednický, V.V.  Lenivenko, A.M. Makan'kin, A.I. Malakhov, E.V. Martovitsky, S.P. Merts, Yu.A. Murin, R.V. Nagdasev,  D.N. Nikitin, S.V. Novozhilov, V.A. Plotnikov, N.E. Pukhaeva, S.V. Reshetova, V.Yu. Rogov, I.A. Romanov, P.A. Rukoyatkin, M.M. Rumyantsev, I.A. Rufanov, D.G. Sakulin, S.A.Sedykh, S.V. Sergeev, A.D. Sheremetiev, A.I. Sheremetieva, A.V. Shchipunov, M.O. Shitenkov, A.V. Shutov, V.B. Shutov, I.V. Slepnev, V.M. Slepnev, I.P. Slepov, A.V. Smirnov, T. Smolyanin, A.S. Sorin, V.N. Spaskov, Yu.Yu. Stepanenko, E.A. Streletskaya, B.V. Sukhov, D.A. Suvarieva, N.A. Tarasov, O.G. Tarasov, A.V. Terletsky, V.V. Teryaev, V.V. Tikhomirov, A.A. Timoshenko, I.A. Tyapkin, V.V. Ustinov, V.A. Vasendina, V.K. Velichkov, A.A.Voronin, V.I. Yurevich, N.I. Zamyatin, I.A. Zhavoronkova,  A.I. Zinchenko, R.A. Zinchenko, E.V. Zubarev
MLIT E.I. Alexandrov, I.N. Alexandrov, N.A. Balashov, D.A. Baranov, I.A. Filozova, Zh.Zh. Musulmanbekov, V.V. Palichik, I.S. Pelevaniuk, D.V. Podgainy, O.I. Streltsova, N.N. Voytishin, M.I. Zuev
FLNP E.I. Litvinenko, I.S. Zhironkin
2.4. Analysis of BM@N experimental data and feasibility studies for BM@N program in heavy ion beams

 M.N. Kapishin
A.I. Zinchenko
Realization

Brief annotation and scientific rationale:
Investigation of reaction dynamics and studingmodifications of hadron properties in nuclear matter, near-threshold strange hyperons production and search for hyper nuclei in interactions of the Nuclotron extracted ion beams with fixed targets at the BM@N detector.

Expected results upon completion of the project:
Commissioning of BM@N and obtaining physics results on interactions of Nuclotron extracted ion beams with fixed targets to study reaction dynamics and the equation-of-state of nuclear matter, modifications of hadron properties in nuclear matter, near-threshold strange hyperons production and to search for hyper nuclei. 

Expected results in the current year:
Preparing the BM@N set-up for the physics run with a heavy ion beam extracted from the Nuclotron. New data collection with a heavy ion beam at BM@N. Analysis of new experimental data collected at BM@N.
3. MPD V.M. Golovatyuk
V.D. Kekelidze
Deputy:
V.G. Ryabov
Realization
VBLHEP S.V. Afanasev, G.N. Agakishiev, N.V. Anfimov, A.E. Antonova, A.A. Aparin, V.I. Astakhov, S.V. Andreeva, T.V. Andreeva, S.P. Avdeev, G.S. Averichev, A.V. Averiyanov, V.A. Babkin, I.A. Balashov, V.M. Baryshnikov, A.E. Baskakov, A.G. Bazhazhin, S.N. Bazylev, A.V. Belyaev, E.V. Belyaevа, S.E. Belyaev, D.N. Bogoslovsky, I.V. Boguslavsky, M.G. Buryakov,  A.V. Butenko, A.V. Butorin, A.V. Bychkov, S.G. Buzin, V.V. Chalyshev, V.A. Cheplakova, V.V. Chepurnov, V.F. Chepurnov, A.E. Cheremukhin, G.A. Cheremukhina, P.V. Chumakov, D.V. Dementiev, A.V. Dmitriev, V.Kh. Dodokhov, E.V. Dolbilina, A.G. Dolbilov, D.E. Donets, V.I. Dronik, A.Yu. Dubrovin, P.O. Dulov, V.B. Dunin, V. Dyatlov,  D.S. Egorov, V.V. Elsha, A.E. Emelianov, N.E. Emelianov, O.V. Fateev, A.E. Fedotov, Yu.I. Fedotov, A.A. Fedyunin, I.A. Filippov, M.A.Gaganova, T.T.Gandzhelashvili, O.P. Gavrischuk, K.V. Gertsenberger, S. Ghoneim Umna, N.V.Gorbunov, Z.A. Igamkulov, A.V. Ivanov, A.Yu. Isupov, S.I. Kakurin, M.N. Kapishin, G.D. Kekelidze, A.O. Kechechan, V.A. Kireev, Yu.T. Kiryushin, I.S. Kiryutin, H.G. Khodzhibagiyan, V.I. Kolesnikov, A. Kolozhvari, N. Kolomoyets,  V.G. Komarov, V.A. Kramarenko, L.M. Krasnova, Yu.F. Krechetov, I.V. Kruglova, A.V.Krylov, V.A. Krylov, S.I. Kukarnikov, S.N. Kuklin, E.A. Kulikov, V.S. Kuz'min, N.A. Lashmanov, R. Lednicky, A.N. Livanov, V.I. Lobanov, Yu.Yu. Lobanov, S.N. Lobastov, Yu. Lukstin'sh, D.T. Madigozhin, A.A. Makarov, V.I. Maksimenkova, A.I. Malakhov, I.V. Malikov, D.G. Melnikov, S.P. Merts, I.N. Meshkov, G.V. Meshcheryakov, I.I. Migulina, K.V. Mikhailov,  G.D. Milnov,  Yu.I. Minaev, S.A. Movchan, N.A. Molokanova, A.E. Moskovsky, A.A. Moshkin, Yu.A. Murin, K.A. Mukhin, D. Myktybekov, V.A. Nikitin, I.A. Oleks, O.E. Orlov, V.A. Pavlyukevich, V.A. Penkin, V.A. Petrov, D.V. Peshekhonov, A.V. Pilyar, N.V. Pilyar, S.M. Piyadin, D.S. Potapov, N.O. Ridinger, O.V. Rogachevsky, V.Yu. Rogov, M.M. Rumyantsev, I.A. Rufanov A.A. Rybakov, A.A. Rymshina, Z.Ya-O. Sadygov, A.A. Savenkov, S, Sebalos Sanches, S.A.Sedykh, A.Yu. Semenov, I.A. Semenova, V.Z. Serdyuk, S.V. Sergeev, N.A. Sergeeva, E.V. Serochkin, A.O. Sidorin, I.P. Slepov, V.M. Slepnev, I.V. Slepnev, Yu.A. Solnyshkin, A.S. Sorin, E.A. Streletskaya, G.G. Stiforov,  S.I. Sukhovarov, V.L. Svalov, A.V. Shabunov, A.D. Sheremetiev, A.I. Sheremeteva, R.A. Shindin, M.O. Shitenkov, I.A. Shmyrev, A.A.Shunko, A.B. Shutov, V.B. Shutov, D.V. Schegolev, A.N.Scherbakov, A.V. Schipunov, N.A. Tarasov, A.V. Terletsky, O.V. Teryaev, S.V. Timofeev, A.E. Timofeeva, A.A. Timoshenko, V.V. Tikhomirov, G.P. Tkachev, N.D. Topilin, A.V. Trubnikov, G.V. Trubnikov, I.A. Tyapkin, S.Yu. Udovenko, V.A. Vasendina, I.N. Vasilev, S.V. Vereschagin, A.S. Vodopiyanov, O.A. Volodina, A.A. Voronin, V. Voronyuk, G.A. Yarygin, V.I. Yurevich, M.V. Zaitseva, N.I. Zamyatin, S.A. Zaporozhets, A.I. Zinchenko, D.A. Zinchenko, V.N. Zryuev
 
DLNP K.G. Afanaviev, A.V. Guskov, N.V. Khomutov, N.P. Kravchuk, N.A. Kuchinski, V.L. Malyshev, A.G. Olshevsky
MLIT A. Abgaryan, A.S. Airyan, E.I. Aleksandrov, I.N. Aleksandrov, A.I. Balandin, N.A. Balashov, D.A. Baranov, D.V. Belyakov, Ya. Busha, O. Grigoryan, A.O. Golunov, S. Hnatic, V.V. Ivanov, I.A. Kashunin, A.A. Kokorev, V.V. Korenkov, V.V. Mitsyn, A.N. Moibenko, Zh.Zh. Musulmanbekov, A.V. Nechaevskiy, V.V. Papoyan, S.S. Parzhitskiy, I.S. Pelevanyuk, D.V. Podgainyi, D.I. Pryakhina, R.N. Semenov, S.V. Shmatov, O.I. Streltsova, T.A. Strizh, V.V. Trofimov, N.N. Voitishin, A.S. Vorontsov, M.I. Zuev
 
LTP V.D. Toneev
FLNP E.I. Litvinenko
 
3.1. Design and construction of the
superconducting solenoid and magnet yoke

 K.A. Mukhin
N.D. Topilin
Realization
VBLHEP S.E. Belyaev, E.V. Belyaeva, R.V. Baratov, S.E. Gerasimov, Yu.Yu. Lobanov, V.A. Novoselov, I.A. Smelyansky, T. Smolyanin, D.A. Tereshin, G.P. Tkachev
3.2. Construction of the detector complex of the start configuration of the MPD setup

 V.M. Golovatyuk
V.D. Kekelidze
Realization
VBLHEP V.A. Babkin, C.N. Bazylev, A.  Ivashkin, S.A. Movchan, Yu.A. Myrin, I.A. Tyapkin, N.D. Topilin, V.I. Yurevich
 
3.3. Design and creation of the data
acquisition and control systems

 S.N. Bazylev
I.V. Slepnev
Realization
VBLHEP A.E. Baskakov, A.A. Fedyunin, I.A. Filippov, S.N. Kuklin, A.V. Schipunov, A.B. Shutov, V.M. Slepnev, N.A. Tarasov, A.V. Terletsky
3.4. Development of MPD physical program V.G. Ryabov 
V.I. Kolesnikov
A.I. Zinchenko
Realization
3.5. Development of MPD data processing and physics analysis system

 O.V. Rogachevsky
A.G. Dolbilov
S.V. Shmatov
Realization
VBLHEP A.A. Moshkin, I.P. Slepov
MLIT E.I. Aleksandrov, I.N. Aleksandrov, A.I. Balandin, N.A. Balashov, D.A. Baranov, D.V. Belyakov, A.O. Golunov, А.G. Dolbilov, S.Hnatic, I.A. Kashunin, V.V. Korenkov, V.V. Mitsyn, A.N. Moibenko, Zh.Zh. Musulmanbekov,  S.S. Parzhitskiy, I.S. Pelevanyuk, D.V. Podgainy, D.I. Pryakhina, R.N. Semenov, O.I. Streltsova, T.A. Strizh, V.V. Trofimov, N.N. Voitishin, A.S. Vorontsov, M.I. Zuev

Brief annotation and scientific rationale:
The physical launch of the NICA collider with the beam is planned for 2025. By the middle of 2025, the collider should provide collisions of the Xe beam with the fixed wire target installed in the collision area of the MPD experiment. Tungsten will be used as the wire material. In the second and third stages of the launch, interactions of Xe colliding beams should be implemented. The timing of the construction and launch of the experimental facility is tightly linked to the collider launch schedule. By mid-summer 2025, the MPD experimental facility should be fully assembled and installed in its operation position with the beam. The detector subsystems should be integrated into a common data control and readout system. The first data collected by the MPD facility with the beam will be used to study the operation and characteristics of the detector subsystems, to tune the signal recovery algorithms in the detector subsystems, and to reconstruct charged particle tracks and their association with signals in external detectors.

Expected results upon completion of the project:
Creating and launching the first stage of the MPD experimental.
The configuration of the first stage includes: a magnet that creates a uniform field up to 0.57T, a track system based on the time projection chamber TPC, a time-of-flight detector FFD-TOF, an electromagnetic calorimeter ECal and a forward hadron calorimeter FHCal. Holding a technical run on the beams of the NICA collider to configure all subsystems of the MPD experimental setup, holding a physical run on the beam for a set of events corresponding to collisions of heavy ions in the required beam configuration in order to study the properties of baryonic matter.

Creation and commissioning of a centralized monitoring, control and operation system for detectors, magnets, gas system (DCS), as well as an emergency indication and emergency response system.

Development of the DAQ system for the detector subsystems.

Development of a system for continuous monitoring of the quality of data recorded from detectors (QA), calibration of detectors and primary processing of data obtained from the experimental facility to switch from the raw data format to tables of recovered tracks and hits in detector subsystems, processing of the tables of tracks and hits obtained at the previous stage in order to determine the operational characteristics of detectors and the entire facility, as well as obtaining the first physical results.

Expected results of the project in the current year:
Cooling of the Solenoid to the temperature of liquid nitrogen, start of the first collaboration shifts.

Current supply to superconducting and correction magnet windings, testing of magnet operation modes and energy evacuation systems.

Carrying out measurements of the magnetic field at different current values.

Completion of the construction of TOF, FHCal, FFD subsystems, assembly of the TPC housing, and first 40 half-sectors of the ECal.

Determination of optimal parameters and algorithms for the operation of the MPD trigger system, built on the basis of FFD, FHCal and TOF, for effective selection of events corresponding to collisions of nuclei with the fixed target and in the collision mode of colliding beams, determination of the coordinates of the primary vertex and the starting time T0. Implementation of the developed algorithms in hardware.

Simulation of the operation of the MPD experimental facility in Xe+W collisions using various event generators in order to study the possibilities of its use for studying collisions of an ion beam with a fixed target. Such a beam configuration is likely to provide the largest amount of experimental data available for study.
4. Construction of the SPD facility for studying spin effects in nuclear interactions

 A.V. Guskov
Deputy:
V.P. Ladygin
Project preparation
VBLHEP R.R. Akhunzyanov, V.Yu. Alexakhin, V.A. Anosov, V.I. Astakhov, N.I. Azorskiy, D. Baigarashev, A.A. Baldin, E.G. Baldina, K.D. Basharina, V.V. Bautin, E.V. Belyaeva, Yu.G. Bespalov, Ver.V. Bleko, V.V. Bleko, D.N. Bogoslovskii, V.V. Borisov, D.V. Budkouski, E.A. Bushmina, D.D. Chemezov, S.A. Chetverikov, V.B. Chmill, V.B. Dunin, T.L. Enik, A.S. Galoyan, O.P. Gavrishchuk, S.E. Gerasimov, S.M. Golubykh, N.V. Gorbunov, Yu.V. Gurchin, A.Yu. Isupov, A.V. Ivanov, N.Y. Ivanov, S.I. Kakurin, Y. Kambar, I.Yu. Kapitonov, V.Yu. Karjavin, G.D. Kekelidze, D. Kereibay, S.V. Khabarov, P.R. Kharyuzov, E.A. Klevtsova, E.S. Kokoulina, Yu.A. Kopylov, V.A. Kukharev, D.S. Korovkin, A. Korzenev, E.V. Kostyukhov, M.A. Kozhin, V.A. Kramarenko, E.A. Ladygin, R. Lednicki, A.N. Livanov, K.V. Loshmanova, V.M. Lysan, D.T. Madigozhin, S.A. Movchan, K.V. Mikhailov, O. Minko, Y. Mukhamejanov, A. Mukhamejanova, D. Myktybekov, S.N. Nagorniy, D.N. Nikiforov, V.A. Nikitin, V.V. Pavlov, V.V. Perelygin, M.V. Petrov, V.V. Popov, S.I. Pudin, S.G. Reznikov, N.S. Rogacheva, S. Romakhov, K.M. Salamatin, A.B. Safonov, N.Sagimbaeva, A.A. Savenkov, V.V. Shalaev, A.I. Sheremeteva, S.S. Shimansky, S.N. Shkarovskiy, A.A. Shunko, S.E. Sinelshchikova, S.Yu. Starikova, E.A. Streletskaya, S.I. Sukhovarov, O.G. Tarasov, A.A. Terekhin, A.V. Tishevsky, N.D. Topilin, Yu.A. Troyan, E.A. Usenko, E.V. Vasilieva, I.S. Volkov, P.V. Volkov, Yu.V. Yershov, N.I. Zamiatin, E.V. Zemlyanichkina, I.A. Zhizhin, I.A. Zhukov, A.V. Zinin, D.A. Zolotykh, E.V. Zubarev
DLNP V.M. Abazov, L.G. Afanasyev, G.D. Alexeev, A.Eh. Allakhverdieva, N.B. Anfimov, A.M. Artikov, N.V. Atanov, A.V. Baranov, A.V. Boikov, A.E. Bolshakova, V.V. Chalyshev, A.V. Chetverikov, D. Choheli, A.V. Chukanov, A. Datta, Yu.I. Davydov, D.V. Dedovich, M.A. Demichev, I.I. Denisenko, M. Dima, M.-T. Dima, M.-O. Dima, D.V. Fedoseev, V.N. Frolov, A.-B.V. Gazzaev, L.K. Gladilin, A. Gongadze, A.O. Gridin, K.I. Gritsay, A.V. Guskov, N. Huseynov, A.V. Karpishkov, N.A. Kovyazina, V.A. Kozhukalov, V.G. Kruchonak, Yu.A. Kulchitsky, A.V. Kulikov, V.S. Kurbatov, Zh. Kurmanaliev, S.A. Kutuzov, K.I. Kuznetsova, P.I. Lensky, I. Lyashko, A. Maltsev, A.G. Olshevsky, A.A. Piskun, F.V. Prokoshin, D.I. Rusov, A.V. Rybnikov, A.G. Samartsev, O.B. Samoylov, A.S. Selyunin, S.S. Seryubin, V.I. Sharov, A.V. Shipilova, K. Shtejer, A.V. Simonenko, A.N. Skachkova, S.A. Sokolov, V.V. Tereshchenko, A.I. Tropina, Yu.N. Uzikov, A.O. Vasyukov, A.Yu. Verkheev, Yu.L. Vertogradova, L.S. Vertogradov, I.V. Yeletskikh, A.S. Zhemchugov, N.I. Zhuravlev, I.Yu. Zimin
MLIT E.I. Alexandrov, I.N. Alexandrov, M. Bures, A.V. Didorenko, N.V. Greben, Z.K. Khabaev, A.S. Konak, B.F. Kostenko, М.A. Mineev, D.A. Oleynik, G.A. Ososkov, A.Sh. Petrosyan, S.V. Shmatov, V.V. Uzhinsky, N.N. Voitishin
BLTP O.V. Teryaev, A.S. Zhevlakov, V.A. Saleev

Brief annotation and scientific rationale:
The Spin Physics Detector is a planned experimental setup at the NICA collider is intended to study the spin structure of the proton and deuteron and the other spin-related phenomena with polarized proton and deuteron beams at a collision energy up to 27 GeV and a luminosity up to 1032 cm-2 s-1. In the polarized proton-proton collisions, the SPD experiment will cover the kinematic gap between the low-energy measurements at ANKE-COSY and SATURNE and the high-energy measurements at the Relativistic Heavy Ion Collider, as well as the planned fixed-target experiments at the LHC. As for the possibility for NICA to operate with polarized deuteron beams at such energies, it is unique. SPD is planned to operate as a universal facility for comprehensive study of the unpolarized and polarized gluon content of the nucleon at large and moderate x, using different complementary probes such as: charmonia, open charm, and prompt photon production processes. A priority of the experiment is the measurement of parton distributions depending on the transverse momentum of partons in the nucleon (TMD PDFs). The study of spin effects in the elastic scattering of protons and deuterons, and in the production of lambda-hyperons, search for dibaryon resonances, study of the charmed particles production near threshold, study of multiquark correlations, and other polarized and unpolarized physics will be available at the first stage of the collider operation with reduced luminosity and collision energy of proton and ion beams.

Expected results upon completion of the project:
The main result of the experiment should be new information on the gluon helicity, gluon Sivers, Boer-Mulders and other Transverse Momentum Dependent PDFs in the nucleon, as well as the gluon transversity distribution and tensor PDFs in the deuteron, via the measurement of specific single and double spin asymmetries. The results expected to be obtained by SPD will play an important role in the general understanding of the properties of strong interaction, specifically, of the nucleon gluon content and will serve as a complementary input to the ongoing and planned studies at RHIC, and future measurements at the EIC (BNL) and fixed-target facilities at the LHC (CERN). Simultaneous measurement of the same quantities using different processes at the same experimental setup is of key importance for minimization of possible systematic effects.

Expected results of the project in the current year:
Design, development, testing and optimization of prototypes of the detectors and other subsystems of the SPD setup.

Creation and development of infrastructure for testing prototypes of the SPD subsystems at the Nuclotron beams.

Finalization of the SPD technical design report. Approval of the technical design by the SPD International Advisory Committee. 
Activities of the infrastructure:
Name of the activity Leaders
Implementation period
Laboratory    Responsible from laboratories                                     Status
1. Theoretical investigations,
calculations and development of models describing nuclear matter properties at high temperatures and compressions, dynamics of high energy nuclear interactions at extremely high baryonic densities, spin and P-odd effects

 D. Blaschke
A.S. Sorin
O.V. Teryaev

2024-2026

Realization
BLTP V.V. Braguta, A. Frizen, Yu.B. Ivanov, A.S. Khvoroctukhin, Ya.N. Klopot, A.G. Oganesyan, A. Parvan, A.A. Roenko
MLIT Yu.L. Kalinovsky, Zh.Zh. Musulmanbekov, E.G. Nikonov
DLNP G.I. Lykasov
VBLHEP   Kh.U. Abraamyan, D.A. Artemenkov, P.N. Batyuk, D.K. Dryablov, V.D. Kekelidze, M.A. Kozhin, R. Lednicky,  A.I. Malakhov, S.G. Reznikov, O.V. Rogachevsky, V. Voronyuk
2. Computer infrastructure: online and offline clusters of the distributed computer complex, system of simulation, data transfer and analysis, information and technological computer systems A.G. Dolbilov
O.V. Rogachevsky

2024-2026

Realization
VBLHEP O.S. Fedoseev, D.G. Mel'nikov, Yu.I.Minaev, S.A. Mityukhin, D.V. Peshekhonov, I.P. Slepov, B.G. Schinov, I.V. Slepnev, S.N. Shkarovsky, V.L. Svalov
MLIT I.A. Kashunin, D.V. Kekelidze, V.V. Korenkov, V.V. Mitsyn, D.A. Oleynik, I.S. Pelevanyuk,  A.Sh. Petrosayn, M.S. Plyashkevich, D.V. Podgainy, T.A. Strizh, V.V. Trofimov, P.V. Zrelov
3. Construction and development of the test zone for detector R&D at the linear electron accelerator at DLNP A.S. Zhemchugov

2024-2026

Projecting
Realization
VBLHEP A.A. Baldin, T. L. Enik, O. Gavrishchuk, V.V. Kobets, Yu.A. Murin, V.G. Shabratov
DLNP A.E. Brukva, D.L. Demin, M.I. Gostkin, V.G. Kruchonok, S.Yu. Porokhovoy, Ya.A. Samofalova, A.N. Trifonov, K.E. Yunenko
4.  Construction and development of infrastructure for applied and innovation research at the NICA complex A.V. Butenko
A.S. Sorin

2024-2026

Projecting
Realization
4.1 Construction of beamlines for applied research, of stations for
irradiation of electronic components and biological objects with long-range ions and stations for irradiation of electronic components with low-energy ions

 A.V. Butenko
E.M. Syresin
Realization
4.2 R&D for the development and exploitation of irradiation stations
for applied research at the NICA complex; organization of
international collaboration

 O.V. Belov
S.I. Tyutyunnikov
Projecting
Realization
VBLHEP A.A. Baldin, E.A. Levterova, A.V. Rogachev, V.N. Shalyapin, 3 pers.
DLNP K.V. Belokopytova
FLNP M.V. Bulavin
5. Construction of the complex of buildings with engineering
infrastructure for object placement, engineering systems and carrying out R&D for the NICA complex		 N.N. Agapov
V.D. Kekelidze
N.D. Topilin

2024-2026

Projecting
Realization

 
5.1. Technical designing, coordination of the construction of the building complex and engineering infrastructure development A.V. Dudarev
I.N. Meshkov
Projecting
Realization
5.2. R&D, production of prototypes
and full-scale superconducting magnets for the NICA booster and collider, renovated Nuclotron

 H.G. Khodzhibagiyan
Projecting
Realization
VBLHEP  V.V. Agapova, A.S. Averichev, A.M. Bazanov, N.P. Bazylev, V.I. Batin, N.A. Blinov, Yu.T. Borzunov, V.V. Borisov, A.A. Bortsova, A.V. Butenko, A.V. Bychkov, S.A. Dolgy, A.M. Donyagin, V.M. Drobin, N.A. Filippov, E.Yu. Filippova, E. Fischer, A.R. Galimov, O.M. Golubitsky, Yu.V. Gusakov, E.Yu. Ivanenko, V.N. Karpinsky, R.A. Karpunin, I.E. Karpunina, S.Yu. Kolesnikov, A.V. Konstantinov, V.S. Korolev, S.A. Kostromin, A.V. Kudashkin, G.L. Kuznetsov, E.A. Kulikov, O.A. Kunchenko, V.I. Lipchenko, D.V. Lobanov, A.A. Makarov, Yu.A. Mitrofanova, A.Yu. Merkur'ev, A.V. Nesterov, D.N.Nikiforov, M.S. Novikov, A.L. Osipenkov, R.V. Pivin, D.O. Ponkin, T.F. Prakhova, A.S. Sergeev, S.A. Smirnov, A.V. Shabunov, M.M.Shandov, A.V.Shemchuk, E.V. Shevtchenko, Yu.A. Tumanova, N.A. Zhil'tsova
MLIT P.G. Akishin
5.3. Upgrade and development of electric power and technological nets aimed at the increasing of economics and technical efficiency N.N. Agapov
N.V. Semin
Projecting
Realization
VBLHEP   A.V. Alfeev, E. Fischer, A.M. Karetnik, H.G. Khodzhibagiyan, A.A. Makarov, M.I. Migulin, M.S. Novikov, E.V. Serochkin, V.M. Stepanov, A.N. Sotnikov, A.V. Shabunov, V.Yu. Shilov, O.M. Timoshenko, N.D. Topilin, V.P. Tchernyaev
CCD Yu.N. Balandin, I.S. Frolov, L.I. Tikhomirov
OCE V.N. Buchnev, 2 pers.
LRB G.N. Timoshenko, 3 pers.

Brief annotation and scientific rationale (p.5):
The activity is related to the production of a superconducting inductive energy storage device for the power system of the Booster and the Nuclotron, as well as the superconducting magnetic system of the New Nuclotron based on HTS magnets.

Expected results upon completion of the activity: 
Development of a superconducting magnetic energy storage (SMES) in the power system of the Booster and Nuclotron with a stored energy of about 3 MJ.

Production of a model dipole magnet for the New Nuclotron made of HTS material.

Expected results of the activity this year:
Construction of a machine to produce HTS cable for SMES magnet.

Studies of the characteristics of HTS tapes under irradiation with heavy ions.

Development of a model dipole magnet for the New Nuclotron.

 Collaboration

Country or International Organization City Institute or laboratory
Armenia Yerevan Foundation ANSL
Azerbaijan Baku NNRC
Belarus Minsk BSU
    INP BSU
    IP NASB
    JIPNR-Sosny NASB
    PTI NASB
Bulgaria Plovdiv PU
Chile Valparaiso UTFSM
China Beijing "Tsinghua"
    CIAE
    IHEP CAS
    UCAS
  Hefei ASIPP
    USTC
  Hengyang USC
  Huzhou HU
  Jinan SDU
  Lanzhou IMP CAS
  Shanghai Fudan
    SINAP CAS
  Wuhan CCNU
  Yichang CTGU
Cuba Havana InSTEC
Czech Republic Olomouc UP
  Rez NPI CAS
Egypt Cairo ECTP MTI
Georgia Tbilisi GTU
Germany Darmstadt GSI
  Julich FZJ
Japan Tokyo Nihon Univ.
Kazakhstan Almaty INP
    PhysTI
Mexico Mexico City UNAM
  Puebla BUAP
Moldova Chisinau IAP
Mongolia Ulaanbaatar IPT MAS
Russia Belgorod BelSU
  Dolgoprudny MIPT
  Fryazino ISTOK
  Gatchina NRC KI PNPI
  Kazan Compressormash
    Spetshmash
  Moscow Cryogenmash
    Geliymash
    IBMP RAS
    ITEP
    LPI RAS
    MIREA
    MSU
    NNRU "MEPhI"
    NRC KI
    NRU HSE
    PRUE
    SINP MSU
    VEI
  Moscow, Troitsk INR RAS
  Novocherkassk SRSPU NPI
  Novosibirsk BINP SB RAS
    STL "Zaryad"
  Protvino IHEP
  Saint Petersburg SPbSPU
    SPbSU
  Samara SU
  Syktyvkar DM Komi SC UrB RAS
  Tomsk TSU
  Vladikavkaz NOSU
  Zhukovsky TECHNOLOGY
Serbia Belgrade INS "VINCA"
Slovakia Kosice UPJS
  Nova Dubnica EVPU
South Africa Somerset West iThemba LABS
  Stellenbosch SU
Uzbekistan Tashkent Assoc. P.-S. PTI