\TN{04-4-1069-2009/2014}{1}{\tsprg}
{Investigations of Nanosystems and Novel Materials \\by Neutron Scattering Methods}
{V.L.~Aksenov \\A.M.~Balagurov\\D.P.~Kozlenko}

\TC{Azerbaijan, Belarus, Bulgaria, Czech Republic, Egypt, France, Germany, Hungary, Japan, Latvia, 
    Moldova, Mongolia, Norway, Poland, Romania, Russia, Serbia, Slovak Republic, South Africa, 
    Switzerland, Taiwan, Ukraine, United Kingdom, Uzbekistan.}

\TA Investigations of structure, dynamics and microscopic properties of nanosystems 
    and novel materials, interesting for fundamental research in the fields of condensed matter physics,
    chemistry, materials science, geophysics, and important for development of nanotechnologies in the fields 
    of electronics, pharmacology, medicine, by neutron scattering and complimentary methods.

%%\vspace*{4mm}

{\bf Expected main results in 2013:}
\begin{itemize}

<center><b>Realization of the scientific program:</b></center><br>
\item Determination of the crystal and magnetic structure of functional and nanostructured
      materials demonstra\-ting interesting physical phenomena and promising for technological
      applications in a wide range of thermo\-dy\-na\-mic parameters, clarification of the role of 
      structural parameters and clusterization in the formation of physical properties.   
%2
\item Determination of the parameters of crystal and magnetic structure of relaxor and frustrated 
      multiferroics. 
%3
\item Determination of magnetic properties of layered nanostructures in stationary and oscillating 
      magnetic fields.
%4
\item Determination of structural characteristics of biocompatible magnetic fluids.  
%5
\item Structural characterization and analysis of clusterization regimes in liquid dispersions 
      of nanodiamonds and fullerenes. 
%6
\item Determination of structural characteristics of carbosilane dendrimers promising for
      technological applica\-tions. 
%7
\item Experimental and theoretical analysis of crystal structure and vibrational spectra of 
      molecular complexes, including ion-inclusive materials, complexes with electric charge
      transfer, structural and dynamical pa\-rame-ters of hydrogen bonds in biologically active
      materials.   
%8
\item Determination of structural and functional characteristics of biological nanosystems: 
      proteins, DNA, RNA macromolecules and their complexes. 
%9
\item Determination of nanostructure and diffusion properties of model lipid nanosystems
      for understanding drug delivery mechanisms through the upper layer of the skin.
%10
\item Determination of structural and dynamical characteristics of reactor materials 
      including fuel compositions at high temperatures up to 2000 K. 
%11
\item Determination of structural instability conditions of rock materials under the action 
      of high pressures and temperatures, especially during polymorphic phase 
      transformations, for the development of earthquake mechanism concept. 
%12
\item Development of the model of solid polycrystalline materials for the prediction of elastic, 
      strength and thermal properties, taking into account the effects of texture, inclusions,
      pores and microcracks. Quantitative description of crystallographic texture. 
%13
\item Determination of residual stresses in construction materials of nuclear reactors, 
      industrial materials and  factory-made goods, composites, reinforced systems, 
      metalloceramics, shape-memory alloys.
%14
\item Determination of local structure parameters of complex metallic clusters in oxide matrices.
<br><br><center><b> Realization of the instrument development program for the IBR-2M spectrometers:</b></center>

%1
\item Creation of the elements of the detector system, cryostat, set of high pressure cells of the DN-6 diffractometer. 
%2
\item Creation of the polarizing system and sample units of the multifunctional reflectometer GRAINS. 
%3
\item Modernization of the instruments SKAT/Epsilon, YuMO, HRFD, FSD, Reflex, NERA-PR, DIN-2PI,
      aimed at improving technical parameters – increase of neutron counting rate,
      reduction of background, improvement of experimental conditions. 
%4
\item Modernization of the REMUR reflectometer – development of 2D polarization analysis, 
      small-angle  scattering mode, reduction of background.
%5
\item Reconstruction of the high intensity diffractometer DN-2 into a diffractometer for 
      real-time measurements.
%6
\item Development and testing of neutron scattering techniques for studies of materials and
      nanosystems including radiography, spin-echo, standing waves, neutron magnetic resonance. 
\end{itemize}


%% \begin{project}
%%\item \PList{RTD diffractometer}{A.M.~Balagurov}{1}{2012}{2015}
%%\end{project} 

%%\vspace*{8mm}


\begin{stage-tr}
%1
\item \PS{Structure and Properties\\ of Novel Crystalline\\ and Nanostructured Materials}{A.M.~Balagurov\\ D.P.~Kozlenko}{\psdt}
      \PL{FLNP}{}{A.I.~Beskrovnyi, B.N.~Savenko, E.B.~Askerov, I.A.~Bobrikov, N.O.~Golosova,
                  Zh.~Gombo, S.G.~Dzhabarov, S.E.~Kichanov, M.L.~Craus, N.V.~Loshak, E.V.~Lukin,
                  G.M.~Mironova, S.A.~Samoilenko, E.A.~Sivachenko, S.G.~Sheverev}
%2
\item \PS{Magnetic colloid systems in bulk\\ and at interfaces}{M.V.~Avdeev}{\psdt}
      \PL{FLNP}{}{V.I.~Petrenko, A.V.~Nagornyi, A.V.~Tomchuk, Zh.~Narmandah, I.V.~Gapon}
%3
\item \PS{Magnetism of layered\\ nanostructures}{Yu.V.~Nikitenko}{\psdt}
      \PL{FLNP}{}{S.V.~Kozhevnikov, E.B.~Dokukin}
%4
\item \PS{Structure of carbon \\nanomaterials}{V.L.~Aksenov}{\psdt}
      \PL{FLNP}{}{T.V.~Tropin, O.A.~Kizima}
%5
\item \PS{Atomic dynamics of nanosystems\\ and materials}{A.V.~Puchkov \\(IPPE, Obninsk)}{\psdt}
      \PL{IPPE (Obninsk)}{}{I.V.~Kalinin, V.M.~Morozov, V.V.~Savostin, A.G.~Novikov, V.A.~Semenov}
%6
\item \PS{Molecular dynamics of biologically\\ active materials, polymorphic \\phases
          of liquid crystals \\and nanomaterials for\\ hydrogen energetics}{D.M.~Chudoba}{\psdt}
      \PL{FLNP}{}{I.~Natkaniec, A.~Pawlukojc, S.~Zalewski, I.L.~Sashin}
%7
\item \PS{Computer modeling of physical \\and chemical properties \\of novel crystalline 
       and \\nanostructured materials}{A.~Pawlukojc}{\psdt}
      \PL{FLNP}{}{D.M.~Chudoba, V.Yu.~Kazimirov}
%8
\item \PS{Structural and functional\\ characteristics of biological,\\
          colloid and polymer\\ nanodispersed materials}{A.I.~Kuklin}{\psdt}
      \PL{FLNP}{}{M.~Balasoiu, A.Kh.~Islamov, T.N.~Murugova, A.V.~Rogachev, A.~Raewska,
                 Yu.E.~Gorshkova, O.~Ivan'kov, L.~Anghel, R.V.~Erhan, D.V.~Solovyev,
                 Yu.S.~Kovalev}
%9
\item \PS{Lipid nanostructures}{M.A.~Kiselev}{\psdt}
      \PL{FLNP}{}{E.V.~Ermakova, N.Y.~Ryabova}
%10
\item \PS{Texture, composition\\ and properties of Earth\\
          minerals and rocks}{Ch.~Scheffzuek}{\psdt}
      \PL{FLNP}{}{T.I.~Ivankina, V.V.~Sikolenko, R.N.~Vasin, Z. Matthies, D.I.~Nikolaev,
                  T.A.~Lychagina, A.A.~Kruglov, D.M.~Levin}
%11
\item \PS{Residual stresses in bulk \\materials and factory-made \\goods}{V.V.~Sumin}{\psdt}
      \PL{FLNP}{}{G.D.~Bokuchava, Yu.V.~Taran, I.V.~Papushkin, D.~Aznabaev, B.~Muhametuly,
                  A.V.~Tamonov}
%12
\item \PS{Development of neutron\\ methods of investigations\\ of structure and dynamics\\
          of nanosystems and materials}{V.I.~Bodnarchuk \\Yu.V.~Nikitenko\\ D.P.~Kozlenko}{\psdt}
      \PL{FLNP}{}{S.V.~Kozhevnikov, S.P.~Yaradaikin, S.E.~Kichanov\\ A.B.~Rubtsov}
%13
\item \PS{Development of the complex\\ of spectrometers\\ of the IBR-2M reactor}{A.M.~Balagurov\\ D.P.~Kozlenko}{\psinp}
      \PL{FLNP}{}{M.V.~Avdeev, A.I.~Beskrovnyy, A.I.~Kuklin, V.I.~Bodnarchuk, I.~Natkaniec, 
          D.M.~Chudoba, Yu.V.~Nikitenko, A.V.~Petrenko, A.V.~Puchkov, B.N.~Savenko,
          V.V.~Sikolenko, V.G.~Simkin, V.V.~Sumin, V.I.~Sukhanov, Ch.~Scheffzuek}

%14
\item \PS{Creation of the diffractometer for studies of transient processes in real time at the IBR-2M reactor
          (RTD diffractometer project)}{A.M.~Balagurov}{\psinp} 
      \PL{FLNP}{}{A.I.~Beskrovnyi, V.V.~Zhuravlev, G.M.~Mironova}

%15
\item \PS{X-ray spectroscopy}{S.I.~Tyutyunnikov}{\psdt\\ \psinp}
      \PL{VBLHEP}{}{V.N.~Shalyapin, V.V.~Efimov, E.A.~Efimova}
\end{stage-tr}

\begin{intcoop}
\mtab{Azerbaijan}{Baku}{IP ANAS}
\mtab{Belarus}{Minsk}{BSU}
\mtab{}{}{INP BSU}
\mtab{}{}{SPMRC NASB}
\mtab{}{}{RI PCP BSU}
\mtab{Bulgaria}{Sofia}{IMS BAS}
\mtab{}{}{IE BAS}
\mtab{}{}{INRNE BAS}
\mtab{}{}{ISSP BAS}
\mtab{Czech Republic}{Prague}{CTU}
\mtab{}{}{IG ASCR}
\mtab{}{}{IMC ASCR}
\mtab{}{}{IP ASCR}
\mtab{}{Rez}{NPI ASCR}
\mtab{Egypt}{Cairo}{CMRDI}
\mtab{}{}{EAEA}
\mtab{}{}{NRC}
\mtab{}{}{TIMS}
\mtab{}{Giza}{NILES CU}
\mtab{France}{Saclay}{LLB}
\mtab{Germany}{Berlin}{HZB}
\mtab{}{Bayreuth}{Univ.}
\mtab{}{Bochum}{RUB}
\mtab{}{Darmstadt}{TU Darmstadt}
\mtab{}{Dortmund}{TU Dortmund}
\mtab{}{Dresden}{IZFP-D}
\mtab{}{Gottingen}{Univ.}
\mtab{}{Geesthacht}{GKSS}
\mtab{}{Halle}{MLU}
\mtab{}{Hamburg}{DESY}
\mtab{}{Freiberg}{TUBAF}
\mtab{}{Julich}{FZJ}
\mtab{}{Karlsruhe}{KIT}
\mtab{}{Kiel}{CAU}
\mtab{}{}{IFM-GEOMAR}
\mtab{}{Leipzig}{UoC}
\mtab{}{Rostock}{Univ.}       
\mtab{}{Stuttgart}{MPI-FKF}
\mtab{Hungary}{Budapest}{Wigner RCP}
\mtab{}{Szeged}{US}
\mtab{Japan}{Nagano}{Shinshu Univ.}
\mtab{Latvia}{Riga}{ISSP UL}
\mtab{}{}{IPE}
\mtab{Moldova}{Chi\c sin\u au}{IC ASM}
\mtab{Mongolia}{Ulaanbaatar}{IPT MAS}
\mtab{}{}{MUST}
\mtab{Norway}{Trondheim}{NGU}
\mtab{Poland}{Warsaw}{INCT}
\mtab{}{Krakow}{JU}
\mtab{}{}{NINP PAS}
\mtab{}{Lublin}{MCSU}
\mtab{}{Poznan}{AMU}
\mtab{}{Siedlce}{UNSH}
\mtab{}{Szczecin}{WPUT}
\mtab{}{Wroclaw}{WUT}
\mtab{}{}{UW}
\mtab{Romania}{Bucharest}{IFIN-HH}
\mtab{}{}{INCDIE ICPE-CA}
\mtab{}{}{NIMP}
\mtab{}{}{ISS}
\mtab{}{}{UB}
\mtab{}{}{UPB}
\mtab{}{}{UTM}
\mtab{}{Craiova}{UC}
\mtab{}{Cluj-Napoca}{INCDTIM}
\mtab{}{}{UBB}
\mtab{}{Iasi}{NIRDTP}
\mtab{}{}{UAI}
\mtab{}{}{UAIC}
\mtab{}{Pitesti}{SCN}
\mtab{}{Timisoara}{LMF CFATR}
\mtab{}{}{UVT}
\mtab{Russia}{Moscow}{GC RAS}
\mtab{}{}{IBMC RAMS}
\mtab{}{}{IC RAS}
\mtab{}{}{IGIC RAS}
\mtab{}{}{IMET RAS}
\mtab{}{}{INMI RAS}
\mtab{}{}{IPCE RAS}
\mtab{}{}{ITEP}
\mtab{}{}{IPE RAS}
\mtab{}{}{ISPM RAS}
\mtab{}{}{NNRU "MEPhI"}
\mtab{}{}{MIET}
\mtab{}{}{MITHT}
\mtab{}{}{MSU}
\mtab{}{}{MUCTR}
\mtab{}{}{NIKIET}
\mtab{}{}{NRC KI}
\mtab{}{}{SINP MSU}
\mtab{}{}{VNIINM}
\mtab{}{Moscow, Troitsk}{HPPI RAS}
\mtab{}{}{ISAN}
\mtab{}{}{INR RAS}
\mtab{}{Alexandrov}{VNIISIMS}
\mtab{}{Dolgoprudny}{MIPT}
\mtab{}{Chernogolovka}{ISSP RAS}
\mtab{}{Gatchina}{PNPI}
\mtab{}{Kazan}{KNRTU}
\mtab{}{Krasnoyarsk}{IP SB RAS}
\mtab{}{Nizhny Novgorod}{UNN}
\mtab{}{}{IPM RAS}
\mtab{}{Obninsk}{IPPE}
\mtab{}{Petrozavodsk}{IG KRS RAS}
\mtab{}{Podolsk}{GIDROPRESS}
\mtab{}{Rostov-on-Don}{RIP SFU}
\mtab{}{St. Petersburg}{IPTI RAS}
\mtab{}{Sterlitamak}{SSPA}
\mtab{}{Tomsk}{NPI TPU}
\mtab{}{Tula}{TSU}
\mtab{}{Yekaterinburg}{IMP UB RAS}
\mtab{}{}{UrFU}
\mtab{Serbia}{Novi Sad}{UNS}
\mtab{Slovak Republic}{Bratislava}{CU}
\mtab{}{Ko\v sice}{IEP SAS}
\mtab{South Africa}{Pretoria}{Necsa}
\mtab{Switzerland}{Villigen}{PSI}
\mtab{}{Zurich}{ETH}
\mtab{Taiwan}{Hsinchu}{NSRRC}
\mtab{Ukraine}{Kiev}{IPMS NASU}
\mtab{}{}{NUK}
\mtab{}{}{ISC NASU}
\mtab{}{Donetsk}{DonIPE NASU}
\mtab{}{Kharkov}{IERT NASU}
\mtab{}{}{KFTI NASU}
\mtab{United Kingdom}{Didcot}{RAL}
\mtab{Uzbekistan}{Tashkent}{INP UAS}
\end{intcoop}

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

\TNs{04-4-1105-2011/2013}{1}{\tscom}
{Development of the IBR-2M Reactor \\with a Complex of Cryogenic Neutron Moderators}
{A.V.~Belushkin\\A.V.~Vinogradov}


\TC{Argentina, Azerbaijan, Democratic People's Republic of Korea, Japan, Poland, Romania, 
    Russia, Spain, Ukraine, United Kingdom, USA.}

\TA The theme main task is to increase the efficiency of use of the IBR-2M reactor 
    at realization of the program of experimental investigations, maintenance of operational 
    realibility and safety of the reactor, creation of a complex of cryogenic neutron 
    moderators.  

%%\vspace*{4mm}

{\bf Expected main results in 2013:}

\begin{itemize}
%1
\item Maintenance of the IBR-2M reactor operation for physical investigations.      
%2
\item Work on the prolongation of the service life of the technological systems of the IBR-2M reactor.
 
%3
\item Development of the system documentation for the reactor stationary system of radiation control.

%4
\item Developing of the cryogenic moderator for beams 7-11 (CM202) at the reactor operating on power. 
      The beginning of work on the creation of a cryogenic moderator for beams 2-3 (CM203).
\end{itemize}
 

\begin{stage-tr}
%1
\item \PS{Beginning of regular operation \\of the IBR-2M reactor}{V.D.~Ananiev\\
         A.V.~Dolgikh\\A.V.~Vinogradov }{\psinp}
      \PL{FLNP}{}{A.A.~Belykov, S.A.~Tsarenkov, V.G.~Ermilov, S.V.~Rudenko,
          Yu.N.~Pepelyshev, V.A.~Trepalin +~30~engineer, +~50~workers}
%2
\item \PS{Maintenance of the program \\of physical investigations}{V.D.~Ananiev\\A.V.~Vinogradov\\A.V.~Dolgikh}{\psinp}
      \PL{FLNP}{}{A.A.~Belyakov, Yu.N.~Pepelyshev, V.A.~Trepalin,
          S.V.~Rudenko +~30~engineers, +~50~workers}
%3
\item \PS{Installation of the cryogenic moderator for beams 7-11 (CM202) on its regular place. 
       Carrying out \\of tests for the CM202 in cryogenic mode at the reactor operating on power. The beginning of work\\
       on the creation of a cryogenic moderator for beams 2-3 (CM203).}{V.D.~Ananiev\\E.P.~Shabalin\\A.A.~Belyakov}{\psinp}
      \PL{FLNP}{}{S.A.~Kulikov +~15~engineers, +~15~workers}
%4
\item \PS{Development of the system documentation for the reactor stationary system of 
radiation control}{A.V.~Vinogradov\\A.V.~Dolgikh}{\psinp}
      \PL{RSD}{}{S.V.~Kulikov +~5~engineers}
\end{stage-tr}
        
\begin{intcoop}
\mtab{Argentina}{Buenos Aires}{CNEA}
\mtab{Azerbaijan}{Baku}{IRP ANAS}
\mtab{Democratic People's \\Republic of Korea}{Pyongyang}{IFR SCNR}
\mtab{Japan}{Sapporo}{Hokkaido Univ.}
\mtab{Poland}{Krakow}{AGH}
\mtab{Romania}{Bucharest}{IFIN-HH}
\mtab{Russia}{Moscow}{NIKIET}
\mtab{}{}{Geliymash}
\mtab{}{}{INEUM}
\mtab{}{}{SYSTEMATOM}
%\mtab{}{}{SSDI}
\mtab{Spain}{Valencia}{UPV}
\mtab{Ukraine}{Kiev}{KINR NASU}
\mtab{United Kingdom}{Didcot}{RAL}
\mtab{USA}{Indianapolis, IN}{IUPUI}
\end{intcoop}

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%      

% Reference number, status and priprity of the theme:                                     %
\TNs{04-4-1075-2009/2014}{1}{\tsprg}
% Title of the theme                                                      %
{Novel Development and Creation of Equipment \\for the IBR-2M Spectrometer Complex}
% Leaders:                                                 %
{S.A.~Kulikov\\V.I.~Prikhodko}
 
% Participating countries and International organizations      %           
\TC{Bulgaria, China, Czech Republic, France, Germany, Hungary, Romania, Russia, Slovak Republic.}


% Scientific programme:                                                  %


\TA Calculation, research and development of the moderator complex and elements 
    of spectrometers of the IBR-2M reactor; development of advanced 
    neutron detectors, a new generation of data acquisition systems,
    computing infrastructure, cryostats and cryomagnetic systems, 
    beam-forming and sample environment systems for condensed matter 
    investigations in accordance with the plan for strategic development 
    of JINR and the development programme for the IBR-2M spectrometers complex.

%%\vspace*{4mm}

{\bf Expected main results in 2013:}
\begin{itemize}
%1
\item Obtaining and analysis of working characteristics of the cryogenic moderator for beams  
      7, 8, 10, 11; optimization of operation of the technological equipment. 
%2
\item Creation of infrastructure on beams 13-14 for testing spectrometer equipment (installation and 
      testing of neutron guide vacuum systems, installation and adjustment of Fourier choppers, 
      development and manufacturing of a 64-channel «List Mode»-analyzer for FSS). 
%3
\item Development of modules of the VITESS package for calculation of detectors with neutron  
      time-focusing. Simulation of elements of a spin-echo spectrometer with pulsed magnetic fields.
%4
\item Development and manufacturing of equipment for the RTD diffractometer (shaft cryostat - 
      diameter of ?18 mm, temperature range of 5?290 K; small-angle ring-shaped detector; data 
      accumulation system for 2D PSD).
%5
\item Putting into operation of control systems for the HRFD, FSD and GRAINS spectrometers. 
%6
\item Manufacturing and testing of a horizontal cryostat for DN-6. Development of a draft design of 
      a cryostat for cryomagnetic investigations on the IBR-2 spectrometers.
%7
\item Development of a new monitor 2D PSD for obtaining thermal neutron beam profiles on the FLNP facilities.
%8
\item Development of a test neutron detector on the basis of ND screens and study of its  characteristics 
     with various types of photomultipliers and light-gathering schemes; selection of an optimum configuration. 
%9
\item Completion of development and commissioning of new systems of data acquisition and 
      accumulation from point detectors for the YuMO, HRFD and FSD spectrometers. 
%10
\item Completion of work to install Sonix+ on the DN-6, RTD, SKAT, HRFD spectrometers.
%11
\item Putting into operation of a new file-server with extended disk space (more than 20 Tbyte); 
      creation of a WiFi network in the main buildings of the Laboratory and the IBR-2 experimental halls.
\end{itemize}

\begin{stage-tr}
%1
\item \PS{Development and research of a new complex of moderators at the IBR-2M reactor. Commissioning 
          of the complex of moderators at the IBR-2M on channels 7, 8, 10, 11 and adjustment of all 
          operating systems of the cryogenic moderator complex}
          {S.A.~Kulikov\\ E.P.~Shabalin}{\psinp}
      \PL{FLNP}{}{M.V.~Bulavin +~5~engineers, +~7~workers}
%2
\item \PS{Complex calculations of neutron spectrometers (from the moderators to the sample position)}
         {S.A.~Kulikov}{\psinp}
      \PL{FLNP}{}{E.P.~Shabalin, S.A.~Manoshin +~2~engineers}
%3
\item \PS{Completion of reconstruction of neutron guides on channel 7 at the IBR-2M reactor. 
          Modernization, adjustment and testing of equipment for the EPSILON, SKAT and NERA-PR 
          spectrometers; putting into operation, start of experiments. Joint JINR-BMBF project}
         {A.V.~Belushkin\\A.~Schilling}{\psinp}
      \PL{FLNP}{}{V.V.~Zhuravlev, V.I.~Prikhodko, A.P.~Sirotin, A.N.~Chernikov +~4~engineers, 
          K.~Scheffzuek +~2~engineers, A.A.~Bogdzel +~3~engineers}
%4
\item \PS{Creation of infrastructure for testing spectrometer equipment (scintillation and 
          gas-filled neutron detectors, cryostats, etc.) on beams 13-14 at IBR-2M and carrying 
          out the instrument development work, in particular, on high-resolution Fourier diffractometry}
         {V.N.~Shvetsov\\ S.A.~Kulikov\\ A.M~Balagurov}{\psinp}
      \PL{FLNP}{}{G.D.~Bokuchava, A.N.~Chernikov, V.V.~Zhuravlev +~5~engineers, A.V.~Churakov +~3~engineers}
%5
\item \PS{Commissioning of gas-filled position-sensitive detector systems at the IBR-2M spectrometers 
          (REFLEX, H
RFD, YuMO, GRAINS, DN-2, etc.) and at the cold moderator. Completion of development 
          and commissioning of the ring-shaped multi-section detector at the DN-6 spectrometer. 
          Completing the ASTRA scintillation detector with modules for the FSD diffractometer}
         {A.V.~Belushkin\\ S.A.~Kulikov}{\psinp}
      \PL{FLNP}{}{V.N.~Shvetsov, D.P.~Kozlenko +~5~engineers, G.D.~Bokuchava +~2~engineers, 
          A.V.~Churakov +~3~engineers, A.A.~Bogdzel +~4~engineers, V.V.~Zhuravlev, V.V.~Kruglov, 
          A.S.~Kirilov +~1~engineer}
%6
\item \PS{Development of control systems of spectrometers’ equipment and sample environment systems 
          at IBR-2M, creation of cryostats} 
         {A.P.~Sirotin}{\psinp}
      \PL{FLNP}{}{V.V.~Zhuravlev, A.N.~Chernikov +~5~engineers}
%7
\item \PS{Modernization of data acquisition systems of the IBR-2M spectrometers’ complex. Development, 
          enhancement and support of the Sonix+ software package and its introduction at the IBR-2M spectrometers.
          Development of the FLNP information-computing infrastructure in accordance with the strategy of 
          development of the JINR computer network}
         {V.I.~Prikhodko}{\psinp}
      \PL{FLNP}{}{A.A.~Bogdzel +~2~engineers, F.V.~Levtchanovski +~2~engineers, A.S.~Kirilov 
          +~3~engineers, G.A.~Sukhomlinov +~2~engineers}
      \PL{LIT}{}{V.V.~Korenkov +~2~engineers.}
\end{stage-tr}
                                    %
\begin{intcoop}
\mtab{Bulgaria}{Sofia}{INRNE BAS}
\mtab{China}{Mianyang}{INPC CAEP}
\mtab{Czech Republic}{\v Re\v z}{NPI ASCR}
\mtab{France}{Grenoble}{ILL} 
\mtab{}{Saclay}{LLB}
\mtab{Germany}{Berlin}{HZB}
\mtab{}{Heidelberg}{Univ.}
\mtab{}{Magdeburg}{OVGU}
\mtab{}{Munich}{TUM}
\mtab{}{Karlsruhe}{KIT}
\mtab{}{Zeuthen}{DESY}
\mtab{}{J\"ulich}{FZJ} 
\mtab{Hungary}{Budapest}{Wigner RCP}
\mtab{Romania}{Bucharest}{INCDIE ICPE-CA}
\mtab{}{}{IFIN-HH}
\mtab{}{T\^argovi\c ste}{UVT}
\mtab{Russia}{Moscow}{NNRU "MEPhI"}
\mtab{}{}{NRC KI}
\mtab{}{Moscow, Troitsk}{INR RAS}
\mtab{}{Gatchina}{PNPI}
\mtab{}{Yekaterinburg}{IMP UB RAS}
\mtab{}{Nizhny Novgorod}{IPM RAS}
\mtab{}{Obninsk}{Branch KIPC}
\mtab{Slovak Republic}{Bratislava}{IMS SAS}
\mtab{Ukraine}{L'viv}{LPNU}

\end{intcoop}