\TN{03--2--1100--2010/2015}{1}{\tsext} {Non-Accelerator Neutrino Physics and Astrophysics } {V.B.~Brudanin\\ A.~Kovalik} \TC{ Armenia, Belarus, Belgium, Bulgaria, Czech Republic, Finland, France, Germany, Kazakhstan, Mongolia,\\ Poland, Romania, Russia, Slovak Republic, Ukraine, USA, Uzbekistan.} \TA Search for and investigation of double-neutrino and neutrinoless modes of double beta-decay, clarification of the Majorana neutrino nature, absolute neutrino mass scale and hierarchies. Search for the neutrino magnetic moment and dark matter. Investigation of galactic and extragalactic neutrino sources, diffusive neutrino cosmic background, search for exotic particles (monopoles). Application of the neutrino detector for a distant investiga\-ti\-on of process inside of the reactor core of Kalininskaya Nuclear Power Plant. Search for sterile neutrinos. Spectroscopy of nuclei far from stability. Development of new methods for charged and neutral particle detection. %%\vspace*{4mm} {\bf Expected main results in 2013:} \begin{itemize} \item Data taking in the $2\beta$-decay measurements of $^{150}$Nd, $^{116}$Cd, $^{106}$Cd, $^{100}$Mo, $^{96}$Zr, $^{82}$Se, $^{48}$Ca with the NEMO, TGV and GERDA spectrometers. \item Processing of experimental data and determination of $T_{1/2}(2\beta2\nu)$ for $^{100}$Mo, $^{82}$Se and $^{76}$Ge. \item Data taking with the GEMMA-II spectrometer at the Kalinin Nuclear Power Plant; getting an upper limit for the neutrino magnetic moment at the level of $\sim 2\cdot 10^{-11}~\mu _B$. \item In the EDELWEISS experiment a number of innovative improvements in the setup and detector's perfor\-man\-ces will be implemented. Forty of FID800 detectors will cumulative fiducial mass 24 kg will be installed in the upgraded EDELWEISS setup.The upgrade implies improved cryogenics, new cabling, installation of additional polyethelyne shield between the lead layer and the cryostat, supplementary muon veto modules, use of the new integrated DAQ and electronics, e.g. implemention of fast ionization channel with 40 MS/s. The goal of the project is to reach a WIMP-nucleon scattering cross-section sensitivity of $5\cdot 10^{-45}$ cm$^2$. The detector research and development on longer term aims to reach a few 100 eV thresholds on both ionization and heat channels. \item Research and development of the semiconductor-based detecting systems for the GERDA and MAJORA\-NA experiments. Beginning of data taking in the experiment on the search for the $^{76}$Ge $2\beta 0\nu$-decay. \item Mounting of the NT1000 prototype string. Data taking and extraction of physical results with the NT200+ spectrometer. \item Investigation of the astrophysical S-factor and effective dd cross section in the 2--7 keV impact energy for the D$_2$O target. \item Investigation of KLL and KMM Auger electrons in $^{65}$Zn, $^{67}$Cu, $^{67}$Ga and $^{152,154,155}$Eu decays. %\item Measurement of the neutrino helicity in $^{56}$Co decays with the Compton polarimeter. \item Design and creation of the low-threshold ($\sim 200$~eV) HPGe detector. Production of low-background plastic scintillators for the Super NEMO experiment. \item Design and creation of the reactor antineutrino detector DANSS. \end{itemize} %%\begin{project} %%\item \PList{SuperNEMO}{O.I.~Kochetov}{1}{2013}{2015} %%\item \PList{GEMMA--II}{V.B.~Brudanin}{1}{2010}{2015} %%\item \PList{EDELWEISS--II}{E.A.~Yakushev }{1}{2010}{2015} %%\item \PList{G\&M (GERDA)}{A.A.~Smolnikov}{1}{2010}{2015} %%\item \PList{BAIKAL}{I.A.~Belolaptikov}{1}{2009}{2015} %%%\item \PList{LESI }{V.M.~Bystritsky}{1}{2010}{2012} %%\item \PList{DANSS}{V.B.~Brudanin\\V.G.~Egorov}{1}{2011}{2015} %%\end{project} \begin{stage} \item \PS{SuperNEMO Project}{O.I.~Kochetov }{\psdt} \PL{DLNP}{}{ V.E. Kovalenko, V.V. Timkin, V.I., Tretyak, F. Mamedov, I. Shermak} \PL{BLTP}{}{F.~Simkovic } \item \PS{TGV Project}{ N.I.~Rukhadze\\I.~Shtekl}{\psdt} \PL{DLNP}{}{V.G.~Sandukovsky, I. Shtekl, F. Mamedov, I. Shermak } \PL{BLTP}{}{F.~Simkovic } \item \PS{G&M (GERDA--MAJORANA Project)}{A.A.~Smolnikov\\K.N.~Gusev}{\pspp\\ \psdt} \PL{DLNP}{}{ V.G. Sandukovsky, V.B. Brudanin, A.A.~Klimenko, D.R.~Zinatulina, E.A. Shevchik, I.V.~ Zhitnikov, F.~Mamedov, I.~Shermak } \PL{BLTP}{}{F.~Simkovic } \item \PS{GEMMA--II Project}{V.G.~Egorov}{\pspp\\ \psdt} \PL{DLNP}{}{V.B.~Brudanin, D.V.~Medvedev, N.S.~Rumyantseva, M.V.~Fomina} \PL{FLNR}{}{E.A.~Sokol} \item \PS{EDELWEISS--II Project}{ E.A.~Yakushev }{\psdt} \PL{DLNP}{}{ S.V. Rozov, L.L.~Perevoshchikov, D.V.~Filosofov, A.V.~Lubashevsky } %\item \PS{Experiment LESI }{ V.M.~Bystritsky }{\pspp\\ \psdt} %\PL{DLNP}{}{V.M.~Bystritsky } %\PL{FLNP}{}{A.P.~Kobzev} %\PL{VBLHEP}{}{N.I.~Zamyatin, M.G. Sapozhnikov } %\PL{BLTP}{}{S.I.~Vinitsky, V.B.~Belyaev } \item \PS{BAIKAL Project}{I.A.~Belolaptikov}{\pspp\\ \psdt} \PL{DLNP}{}{I.A.~Belolaptikov, V.B.~Brudanin, K.V.~Konishev, E.N.~Pliskovski, B.A.~Shaibonov, F.F. Sheifler} \item \PS{DANSS Project}{V.B.~Brudanin}{\pspp} \PL{DLNP}{}{V.G.~Egorov, D.R.~Zinatulina, E.A.~Shevchik, I.V.~Zhitnikov, I.E.~Smirnova, N.S.~Rumyantseva, M.V~Fominaa } \end{stage} \begin{intcoop} \mtab{Armenia}{Yerevan }{YSU} \mtab{Belarus}{Minsk}{NC PHEP BSU} \mtab{Belgium}{Leuven}{K.U.Leuven} \mtab{Bulgaria}{Sofia}{INRNE BAS} \mtab{}{Plovdiv}{PU} \mtab{Czech Republic}{Prague}{CTU} \mtab{}{Rez}{NRI} \mtab{Finland}{Jyvaskyla}{UJ} \mtab{France}{Orsay}{CSNSM} \mtab{}{}{LAL} \mtab{Germany}{Heidelberg}{MPIK} \mtab{}{Mainz}{JGU} \mtab{Kazakhstan}{Almaty}{INP NNC RK} \mtab{Mongolia}{Ulaanbaatar}{NRC NUM} \mtab{}{}{NEA} \mtab{Poland}{Krakow}{NINP PAS} \mtab{}{}{AGH} \mtab{}{Lublin}{MCSU} \mtab{}{Otwock-Swierk}{NCBJ} \mtab{Romania}{Bucharest}{IFIN - HH} \mtab{}{}{UB} \mtab{Russia}{Moscow, Troitsk}{INR RAS} \mtab{}{Gatchina}{PNPI} \mtab{}{Voronezh}{VSU} \mtab{}{Moscow}{NRC KI} \mtab{}{}{VNIINM} \mtab{}{}{NNRU "MEPhI"} \mtab{}{}{LPI RAS} \mtab{}{}{ITEP} \mtab{}{}{SINP MSU} \mtab{}{}{INTRA} \mtab{}{}{RADON} \mtab{}{Sarov}{VNIIEF} \mtab{}{St. Petersburg}{SPbSU} \mtab{}{}{IPTI RAS} \mtab{}{Tomsk}{NPI TPU} \mtab{}{}{IHCE SB RAS} \mtab{Slovak Republic}{Bratislava}{CU} \mtab{}{}{IP SAS} \mtab{Ukraine}{Kiev}{KINR NASU} \mtab{}{Kharkov}{ISC NASU} \mtab{USA}{Irvine, CA}{UCI} \mtab{Uzbekistan}{Tashkent}{INP UAS} \mtab{}{}{IAP NUU} \mtab{}{Samarkand}{SSU} \end{intcoop} \newpage \TN{03--2--1101--2010/2015}{1}{\tsext} { Physics of Light Mesons} { A.V.~Kulikov} \TC{ Belarus, Bulgaria, Croatia, Canada, Czech Republic, Georgia, Germany, Italy, Kazakhstan, Netherlands, Poland, Romania, Russia, Switzerland, USA, Uzbekistan, Japan.} \TA Investigation of strong, weak and electromagnetic interactions of elementary particles and light nuclei at intermediate energies with the aim of determining symmetries and dynamics of the interactions. Development and construction of setups for experiments at accelerators (JINR phasotron, PSI meson factory, COSY proton synchrotron) for obtaining new information and testing the present theoretical views in the topics. Development of projects for new experiments and experimental methods for intermediate--energy physics. %%\vspace*{4mm} {\bf Expected main results in 2013:} \begin{itemize} \item Processing of the experimental data for decays $\mu^+ \rightarrow e^+\gamma$ and $\pi\rightarrow e\nu$. \item Preliminary analysis of the process $\vec{p}d\rightarrow (pp)_s p\pi$ measured with a polarized beam. Measurements of the reaction $\vec{d}\vec{p}\rightarrow {(pp)}_s$n, at COSY. \item Data taking for $p+t$ fusion reaction using the muon catalysis method. Determination of yields of different reaction channels. \item Determination of branching ratios for reaction channels of pion interactions with the helium nucleus at incident pion energies 68~MeV, including the reaction channel with emission of a photon and the channel with $\Delta$--isobar production. Estimation of the muon neutrino mass from $\pi$ decay events; performing runs at the LNP phasotron. \item Study of the influence of the impurities on the acceptor parameters in the diamond--like and wide-gap semiconductors. Study of the properties of superparamagnetic ferritic nanoparticles in a non-magnetic matrices. \item Measurement of transverse asymmetries T and F in $\eta$ photoproduction in the region of the S11(1535) resonance (circularly polarized photon beam and transversely polarized proton target)(GDH) \item Experiments with the "Active Target" (GDH). \item Measurement of A$_N$ for the inclusive and exclusive reactions $\pi^{-}p \rightarrow\omega (782)\eta$ and $\pi^{-}p \rightarrow \eta^{'}$(958)n. \item R&D on crystals for use in the experiment on $\mu-e$ conversion. \end{itemize} %%\begin{project} %%\item \PList{SPRING}{ A.V.~Kulikov}{1}{2010}{2015} %%\item \PList{MEG--PEN}{N.A.~Kuchinskiy}{1}{2010}{2015} %%\item \PList{MUON}{V.N.~Duginov}{1}{2011}{2013} %%\item \PList{TRITON}{D.L.~Demin}{1}{2011}{2013} %%\item \PList{GDH\&SPASCHARM}{Yu.~Usov\\A.~Kovalik}{1}{2011}{2013} %%\end{project} \begin{stage} \item \PS{MEG--PEN Project}{N.A.~Kuchinskiy}{\pspp\\ \psdt} \PL{DLNP}{}{V.A.~ Baranov, V.A.~Kalinnikov, N.V.~Khomutov, A.S.~Korenchenko, S.M.~Korenchenko, N.P.~Kravchuk, E.S~Kuzmin, A.S.~Moiseenko, A.M.~Rozhdestvensky, Z.~Tsamalaidze, E.P.~Velicheva, V.P.~Volnykh, A.S.~Khrykin} \item \PS{SPRING Project}{ A.V.~Kulikov}{\psdt\\ \psda} \PL{DLNP}{}{V.I.~Komarov, Yu.N.~Uzikov, A.D.~Volkov, O.~Imambekov, G.~Macharashvili, N.~Kadaridze, S.N.~Dymov, V.V. Shmakova, T.I.~Azaryan, V.S.~Kurbatov, D.A~Tsirkov, M.V.~Zhabitsky, Yu.V.~Prokofichev } \item \PS{Experiment PAINUC }{N.A.~Russakovich\\ G.~Piragino}{\psdt\\ \psda } \PL{DLNP}{}{G.B.~Pontecorvo, V.I.~Lyashenko, N.S.~Angelov, Yu.A.~Batusov, P.N.~Batyuk, I.A.~Belolaptikov, T.D.~Blokhintseva, A.V.~Demyanov, V.A. Drozdov, V.N.~Frolov, V.M. Grebenyuk, V.V~Ivanov, V.E.~Kovalenko, A.S.~Moiseenko, A.M.~Rozhdestvensky, S.A. Gustov } \PL{LIT}{}{V.V.~Ivanov, S.A. Baginyan} \PL{LRB}{}{V.A.~Panyushkin} \PL{FLNP}{}{ V.A. Drozdov} \item \PS{ MUON Project}{ V.N.~Duginov\\ T.N.~Mamedov}{\psdt \\ \psda} \PL{DLNP}{}{E.I.~Bunyatova, K.I.~Gritsaj, A.I.~Rudenko, G.D.~Soboleva, V.A.~Stolupin} \PL{FLNP}{}{M.~Balasoiu + 2 pers.} \item \PS{TRITON Project}{D.L. Demin\\ V.V. Filchenkov}{\psdt\\ \psdp} \PL{DLNP}{}{A.M.~Artikov, N.A.~Baranova, A.I.~Boguslavsky, V.P.~Volnykh, N.N.~Grafov, K.I.~Gritsaj, V.N.~Duginov, V.I.~Kolomorets, A.D.~Konin, A.P.~Kustov, N.N.~Kuchinskaya, T.N.~Mamedov, A.I.~Puzynin, A.I.~Rudenko, A.V.~Simonenko, S.V.~Filin, V.A.~Stolupin, Yu.A.~Polyakov, S.A.~Gustov, N.A.~Shakun, E.V.~Kolesov } \PL{FLNR}{}{S.A. Yukhimchuk} \PL{LRB}{}{V.B. Buchnev, V.Yu. Schegolev} \item \PS{GDH\&SPASCHARM Project}{Yu.~Usov\\A.~Kovalik}{\psdt\\ \psdp} \PL{DLNP}{}{N.S.~Borisov, N.A.~Bazhanov, A.N.~Fedorov, Yu.A.~Plis, A.B.~Lazarev, A.B.~Neganov, A.B.~Sadovsky, I.V.~Gapienko} \PL{BLTP}{}{S.B. Gerasimov, S.S. Kamalov} \item \PS{Preparation for the experiment\\ on $\mu-e$ conversion}{Z.B. Tsamalaidze}{\pspt\\ \psinp} \PL{DLNP}{}{P.G.~Evtukhovich, A.S.~Moiseenko, G.~ Macharashvili, V.G.~Kalinnikov, A.V.~Kulikov, E.P.~Velicheva, S.N.~Dymov, V.V. Shmakova, A.D.~Volkov, V.P.~Volnykh, B.M.~Sabirov, N.~Tsverava, L.~Lukhumaidze, T.~Toriashvili, I.L.~ Evtukhovich, Kh.~Khubashvili} \PL{LIT}{}{A.~Khvedelidze} \PL{FLNP}{}{A.A.~Kustov} \end{stage} \begin{intcoop} %\mtab{Azerbaijan}{Baku}{IP ANAS} \mtab{Belarus}{Minsk}{NC PHEP BSU} \mtab{}{}{BSU} \mtab{Bulgaria}{Sofia}{SU} \mtab{ Czech Republic}{Prague}{CU} \mtab{}{Rez}{NRI} \mtab{ France}{Saclay}{IRFU } \mtab{Croatia}{Zagreb}{RBI} \mtab{Canada}{Vancouver}{TRIUMF} \mtab{Georgia}{Tbilisi}{HEPI-TSU} \mtab{Germany}{Aachen}{RWTH} \mtab{}{Heidelberg}{Univ.} \mtab{}{Julich}{FZJ} \mtab{}{Cologne}{Univ.} \mtab{}{Dresden}{HZDR} \mtab{}{Munster}{Univ.} \mtab{}{Stuttgart}{MPI-MF} \mtab{Italy}{Frascati}{INFN LNF} \mtab{}{Ferrara}{UniFe} \mtab{}{Rome}{Univ. "La Sapienza"} \mtab{}{Turin}{INFN} \mtab{Japan}{Kyoto}{Kyoto Univ.} \mtab{}{Osaka}{Osaka Univ.} \mtab{}{Tsukuba}{KEK} \mtab{Netherlands}{Delft}{TUDelft} \mtab{Poland}{Krakow}{NINP PAS} \mtab{}{Otwock-Swierk}{NCBJ} \mtab{Romania}{Bucharest}{IFIN - HH} \mtab{}{Timisoara}{CFATR} \mtab{Russia}{Alexandrov}{VNIISIMS} \mtab{}{Gatchina}{PNPI} \mtab{}{Moscow}{ITEP} \mtab{}{}{GPI RAS} \mtab{}{}{MSU} \mtab{}{}{SINP MSU} \mtab{}{}{NRC KI} \mtab{}{Moscow, Troitsk}{INR RAS} \mtab{}{Sarov}{VNIIEF} \mtab{Switzerland}{Zurich}{UZH} %\mtab{}{}{ETH} \mtab{}{Villigen}{PSI} \mtab{USA}{Charlottesville, VA}{UVa} \mtab{}{Pittsburgh, PA}{Pitt} \mtab{}{Tucson, AZ}{UA} \end{intcoop} %%\newpage \TN{03--2--1102--2010/2015}{1}{\tsext} {Improvement of the JINR Phasotron and Design of Cyclotrons for Fundamental and Applied Research } {M.Yu.~Kazarinov\\G.A.~Karamysheva } %%\PLDDD{L.M.~Onischenko} \TC{Belgium, China, Poland, Japan, Uzbekistan.} \TA Improvement of the JINR Phasotron and beam channels. Design of the cyclotrons for medical purposes. Development of the cyclotron method for high-current beam acceleration. %%\vspace*{4mm} {\bf Expected main results in 2013:} \begin{itemize} \item Manufacturing of the thermal protection system of the elements of the beam channels. Manufacturing of the electronic units of the automated beam channel control system. \item Computer simulations of the magnetic and accelerating systems of the superconducting synchrotron. Design of the superconducting magnet with field level about 5~T. \item The choice of key parameters of the FFAG accelerator with proton energy up to 250 MeV. Detailed study of the magnetic triplet to ensure dynamic similarity of the orbit. \item Carring out complex calculations of the NIRS-930 cyclotron using the developed software, preparation of proposals to increase the intensity and quality of the extracted beam. \end{itemize} \begin{stage} \item \PS{ Improvement of the JINR Phasotron and beam\\ channels}{M.Yu.~Kazarinov\\N.G.~Shakun\\L.M.~Onischenko}{\psinp} \PL{DLNP}{}{J.V. Savchenko, A.S. Vorozhtsov, S.B. Vorozhtsov, S.A.~Gustov, A.V. Demyanov, G.A. Kononenko, N.A.~Morozov, I.V. Mirokhin, Yu.A. Polyakov, V.I.~Smirnov, E.V. Sam\-sonov, V.M. Romanov, V.A.~Utkin, N.S. Tolstoi, V.G. Sazonov } \item \PS{Design and modernization of the cyclotrons for medical purpose}{Yu.G.~Alenitsky\\G.A.~Karamysheva\\N.A.~Morozov }{\pstp} \PL{DLNP}{}{N.S.~Azaryan, A.S. Vorozhtsov, S.V. Gursky, S.B.~Vorozhtsov, C.N. Dolya, O.V. Karamyshev, R.V.~Galkin, D.S~Petrov, O.E.~Lepkina, O.V.~Lomakina, S.G.~Shirkov, N.L.~Zaplatin, G.G.~Kazakova, I.N.~Kiyan, S.A.~Kostromin, E.V.~Samsonov, V.M.~Romanov, V.G~ Sazonov, A.F.~Chesnov } \PL{LIT}{}{I.V.~Amirkhanov} \item \PS{Development of the cyclotron method for high-current beam acceleration}{L.M.~Onischenko\\S.B.~Vorozhtsov}{\pstp} \PL{DLNP}{}{Yu.G. Alenitsky, A.S. Vorozhtsov, N.L. Zaplatin, E.V. Samsonov, V.L. Smirnov, V.M. Romanov } \end{stage} %%%\vspace*{10mm} \begin{intcoop} \mtab{Belgium}{Louvain-la-Neuve}{IBA} \mtab{China}{Lanzhou}{IMP CAS} \mtab{Japan}{Chiba}{NIRS} \mtab{Poland}{Krakow}{NINP PAS} \mtab{Uzbekistan}{Tashkent}{INP UAS} \end{intcoop}