\TN{03--5--1094--2010/2014}{1}{\tsprg} {Synthesis and Properties of Nuclei at the Stability Limits} {M.G.~Itkis} %%\PLDDD{Yu.Ts.~Oganessian} \TC{Belgium, Bulgaria, China, Czech Republic, Cuba, Finland, France, Germany, Hungary, Egypt, India, Italy, Japan, Kazakhstan, Mongolia, Poland, Romania, Russia, Serbia, Slovak Republic, South Africa, Spain, Switzerland, Sweden, Ukraine, United Kingdom, USA.} \TA Synthesis and investigation of properties of nuclei at stability limits. Research into the mechanisms of heavy-ion induced reactions. The study of physical and chemical properties of heavy and superheavy elements. %%\vspace*{4mm} {\bf Expected main results in 2013:} \begin{itemize} %1 \item Completion of the experiments on synthesis of the element 117 in the reaction $^{48}$Ñà + $^{249}$Bk, data processing and analysis of results. Carrying out experiments on the synthesis of superheavy nuclei with Z>115 in the reactions with ions $^{48}$Ñà. %2 \item Carrying out nuclear spectroscopy experiments for the isotopes of transfermium elements No, Md è Rf in asymmetrsic complete fusion reactions using modernized separator VASSILISSA + GABRIELA. Study of survival probabilities of compound nuclei with extremely high (more than 400 MeV) excitation energies. %3 \item Carrying out experiments on chemical identification of the element 113. %4 \item Measurements of isotope masses of the element 112 at the separator MASHA in the reaction $^{48}$Ñà + $^{238}$U. %5 \item Production and investigation of the properties of new neutron-rich heavy nuclei obtained in the transfer reactions. Study of exotic fission modes for heavy and superheavy nuclei. %6 \item Research of the structure of light nuclei $^{9}$He, $^{16,17}$Ne, $^{27}$S with the use of radioactive beams and a tritium target. %7 \item Experimental studies of the excitation functions for cluster transfer reactions and for total reaction cross-sections with the d, $^{6,7}$Li,$^{12}$C, $^{48}$Ca beams. Creation of detection system based on the drift chamber for the magnetic spectrometer. %8 \item Theoretical study of the mechanisms of heavy ion induced reactions. %9 \item Development of the knowledge base on nuclear physics within the global computer network. \end{itemize} \begin{stage-tr} %1 \item \PS{Synthesis of new elements\\ at the gas-filled separator}{V.K.~Utyonkov}{\psdt} \PL{FLNR}{}{F.Sh.~Abdullin, A.A.~Voinov, A.M.~Zubareva, V.I.~Krashonkin, A.N.~Polyakov, R.N.~Sagaidak, V.G.~Subbotin, A.M.~Sukhov, Yu.S.~Tsyganov, I.V.~Shirokovsky} %2 \item \PS{$\alpha$-, $\beta$- and $\gamma$- spectroscopy \\of heavy nuclei at the separator VASSILISSA}{A.V.~Yeremin}{\psdt} \PL{FLNR}{}{O.N.~Malyshev, A.I.~Svirikhin, I.N.~Izosimov, V.I.~Chepigin, M.L.~Chelnokov, A.V.~Isaev, I.M.~Merkin, A.N.~Kuznetsov, A.A.~Kuznetsova, A.G.~Popeko, E.A.~Sokol, D.E.~Katrasev, V.A.~Sbitnev, V.M.~Popov} %3 \item \PS{Chemical properties of heavy nuclides}{S.N.~Dmitriev}{\psdt} \PL{FLNR}{}{ V.Ya.~Lebedev, N.V.~Aksenov, Yu.V.~Albin, G.A.~Bozhikov, V.I.~Vakatov, M.G.~Voronyuk, G.K.~Vostokin, I.~Zvara, E.V.~Krasnoyarova, Ch.G.~Kim, K.V.~Lebedev, O.V.~Petrushkin, A.Yu.~Prokhorova, A.V.~Rykhlyuk, A.V.~Sabelnikova, G.Ya.~Starodub, E.E.~Tereshatov} %4 \item \PS{Experiments at the separator MASHA. Laser spectroscopy \\of nuclei}{A.M.~Rodin}{\psdt} \PL{FLNR}{}{L.~Krupa, A.V.~Belozerov, D.V.~Vanin, A.V.~Guljaeva, V.S.~Salamatin, I.~Sivachek, S.V.~Stepantsov, S.A.~Yukhimchuk, S.L.~Bogomolov, S.G.~Zemlyanoy, B.N.~Gikal, A.V.~Eremin} %5 \item \PS{The study of the processes \\of fission, quasifission and\\multinucleon transfer reactions.\\CORSET-DEMON, CORSAR, MiniFOBOS}{M.G.~Itkis}{\psdt} \PL{FLNR}{}{E.M.~Kozulin, A.A.~ Bogachev, V.V.~Volkov, Yu.M.~Itkis, T.F.~Loktev, G.N.~Knyazheva, A.G.~Knyazev, N.I.~Kozulina, I.V.~Lebedev, K.V.~Novikov, E.A.~Rasinkov, O.V. Rudakov, S.U.~Smirnov, D.V.~Kamanin, I.A.~Alexandrova, A.A.~Alexandrov, V.E.~Zhuchko, N.A.~Kondratyev, E.A.~Kuznetsova, Yu.V.~Pyatkov, Yu.B.~Semenov, A.O.~Strekalovsky, O.V.~Strekalovskiy, O.V.~Falomkina} %6 \item \PS{Study of the structure of light nuclei near and beyond the drip \\line. Fragment-separator ACCULINNA, COMBAS}{A.S.~Fomichev}{\psdt} \PL{FLNR}{}{G.M.~Ter-Akopian, M.S.~Golovkov, L.V.~Grigorenko, A.V.~Gorshkov, V.A.~Gorshkov, S.A.~Krupko, A.A.~Bezbakh, Yu.L.~Parfenova, S.I.~Sidorchuk, R.S.~Slepnev, G.~Kaminsky, V.~Chudoba, R.~Wolski, P.G.~Sharov, P.~Jaluvkova, S.~Enhbold, Yu.M.~Sereda, A.G.~Artukh, A.N.~Vorontsov, S.A.~Klygin, G.A.~Kononenko, D.A.~Kislukha, N.A.~Tarantin, E.~Batchuluun} \PL{LTP}{}{S.N.~Ershov, I.A.~Egorova} %7 \item \PS{Reactions induced by stable\\ and radioactive ion beams\\leading to the formation\\ of exotic nuclei}{Yu.E.~Penionzhkevich}{\psdt} \PL{FLNR}{}{S.M.~Lukyanov, R.A.~Astabatyan, G.F.~Isaev, E.A.~Voskoboinik, E.R.~Markaryan, V.A.~Maslov, N.K.~Skobelev, Yu.G.~Sobolev, M.P.~Ivanov, Z.D.~Pokrovskay, R.V.~Revenko, D.A.~Testov, V.I.~Smirnov} %8 \item \PS{Theoretical study of mechanisms\\of heavy ion induced reactions} {V.I.~Zagrebaev}{\null} \PL{FLNR}{}{A.V.~Karpov, A.S.~Denikin, V.V.~Samarin, Y~ Aritomo, E.A.~Cherepanov, Yu.A.~Muzichka, V.A.~Rachkov, M.A.~Naumenko} %9 \item \PS{Development and maintenance \\of the knowledge base on nuclear\\physics within the Internet}{V.I.~Zagrebaev}{\psdt} \PL{FLNR}{}{A.V.~Karpov, A.S.~Denikin, V.V. Samarin, V.A. Rachkov, M.A. Naumenko} \end{stage-tr} \begin{intcoop} \mtab{Belarus}{Minsk}{JIPNR-Sosny NASB} \mtab{Belgium}{Brussels}{ULB} \mtab{Bulgaria}{Sofia}{INRNE BAS} \mtab{China}{Beijing}{PKU} \mtab{Czech Republic}{Prague}{VP} \mtab{}{}{CTU} \mtab{}{Rez}{NPI ASCR} \mtab{Cuba}{Havana}{HITAS} \mtab{Egypt}{Giza}{CU} \mtab{Finland}{Jyvaskyla}{UJ} \mtab{France}{Caen}{GANIL} \mtab{}{Orsay}{CSNSM} \mtab{}{}{IPN Orsay} \mtab{}{Saclay}{SPhN CEA DAPNIA} \mtab{}{Strasbourg}{CRN} \mtab{}{}{IPHC} \mtab{Germany}{Berlin}{HZB} \mtab{}{Darmstadt}{GSI} \mtab{}{Frankfurt/Main}{Univ.} \mtab{}{Tubingen}{Univ.} \mtab{Hungary}{Debrecen}{UD} \mtab{India}{Manipal}{MU} \mtab{}{New Delhi}{IUAC} \mtab{Italy}{Catania}{INFN LNS} \mtab{}{Legnaro}{INFN LNL} \mtab{}{Messina}{UniMe} \mtab{}{Naples}{UNINA} \mtab{Japan}{Tokai}{JAEA} \mtab{}{Wako}{RIKEN} \mtab{Kazakhstan}{Almaty}{INP NNC RK} \mtab{}{Astana}{ENU} \mtab{Mongolia}{Ulaanbaatar}{NUM} \mtab{Poland}{Warsaw}{UW} \mtab{}{Krakow}{NINP PAS} \mtab{}{Otwock-Swierk}{NCBJ} \mtab{}{Poznan}{AMU} \mtab{Romania}{Bucharest}{IFIN-HH} \mtab{Russia}{Moscow}{GEOKHI RAS} \mtab{}{}{IPCE RAS} \mtab{}{}{MSU} \mtab{}{}{NNRU "MEPhI"} \mtab{}{}{MUCTR} \mtab{}{}{NRC KI} \mtab{}{}{SINP MSU} \mtab{}{Moscow, Troitsk}{INR RAS} \mtab{}{Moscow, Zelenograd}{RIMST} \mtab{}{Cheboksary}{ChSU} \mtab{}{Dimitrovgrad}{RIAR} \mtab{}{Gatchina}{PNPI} \mtab{}{Obninsk}{IPPE} \mtab{}{Sarov}{VNIIEF} \mtab{}{St. Petersburg}{KRI} \mtab{}{}{IPTI RAS} \mtab{}{}{SPbSU} \mtab{}{}{ITMO} \mtab{}{Voronezh}{VSU} \mtab{Serbia}{Belgrade}{INS "VINCA"} \mtab{Slovak Republic}{Bratislava}{CU} \mtab{}{}{IP SAS} \mtab{South Africa}{Stellenbosch}{SU} \mtab{}{Cape Town}{iThemba LABS} \mtab{}{Pretoria}{Unisa} \mtab{Spain}{Huelva}{UH} \mtab{}{Madrid}{CSIC} \mtab{Switzerland}{Villigen}{PSI} \mtab{Sweden}{Goteborg}{Chalmers} \mtab{Ukraine}{Kiev}{KINR NASU} \mtab{United Kingdom}{Surrey}{Univ.} \mtab{USA}{Argonne, IL}{ANL} \mtab{}{Berkeley, CA}{Berkeley Lab} \mtab{}{College Station, TX}{Texas A&M} \mtab{}{East Lansing, MI}{MSU} \mtab{}{Livermore, CA}{LLNL} \mtab{}{Nashville, TN}{VU} \mtab{}{Oak Ridge, TN}{ORNL} \end{intcoop} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \TN{03--0--1095--2010/2014}{1}{\tsprg} {Accelerator Complex of Ion Beams of Stable and Radioactive Nuclides (DRIBs-III)} {G.G.~Gulbekyan\\ S.N.~Dmitriev\\ M.G.~Itkis} %%\PLDDD{Yu.Ts.~Oganessian} \TC{Belgium, Bulgaria, China, Czech Republic, Democratic People's Republic of Korea, Egypt, France, Germany, Italy, Kazakhstan, Mongolia, Poland, Romania, Russia, Serbia, Slovak Republic, South Africa, Ukraine, Uzbekistan.} \TA Development of the FLNR cyclotron complex including a drastic extension of the experimental base of the Laboratory, development of accelerator systems in order to increase the intensity and improve the quality of beams of stable and radioactive niclides in the energy range from 5 to 100 MeV/nucleon, as well as for the raising stability of the cyclotron operation and reducing their power consumption. %%\vspace*{4mm} {\bf Expected results in 2013:} \begin{itemize} %1 \item Carrying out experiments with beams of $^{48}$Ñà at the cyclotron U400. %2 \item Carrying out experiments with beams of intermediate mass ions of the energy of 6 - 15 MeV/nucleon at the cyclotron U400M. %3 \item Development of the high effective technology of gaining intense ion beams of Ti and Fe from the ion sources. %4 \item Assortment of the main systems for the modernization of the cyclotron U400R. %5 \item Carrying out of experiments with beams of the upgraded microtron MT25. %6 \item Optimization of low-energy (<10 MeV) beam extraction from the microtron MT25. %7 \item Development and testing of new methods intended for the diagnostics of the beams of stable and radioactive nuclides. %8 \item Optimization of the transport systems of beams of stable and radioactive nuclides. %9 \item Carrying out experiments with radioactive beams at the accelerators U400M and MT-25. %10 \item Development of a new experimental hall, beam transportation systems, a high current accele\-ra\-tor and technical support systems. %11 \item Development of a new fragment separator ACCULINNA-2. %12 \item Modernization of the separator VASSILISSA, creation of a new facility - the velocity filter. %13 \item Development of the requirement documentation to design a new gas-filled separator. %14 \item Development of a gas catcher. %15 \item Development of a new separating facility based on stopping the reaction products in gas and their laser ionization. \end{itemize} \begin{stage-tr} %1 \item \PS{Development of the Complex\\of U400M and U400R}{B.N.~Gikal}{\pspp\\ \psdt} \PL{FLNR}{}{P.G.~Bondarenko, S.L.~Bogomolov, L.N.~Gusev, G.N.~Ivanov, S.V.~Pashenko, M.V.~Habarov, I.V.~Kalagin} \PL{LIT}{}{V.V.~Korenkov, P.G.~Akishin, E.A.~Airian} \PL{DLNP}{}{S.B.~Vorozhtsov} \PL{LRB}{}{V.E.~Aleynikov} %2 \item \PS{ECR-ion sources development}{S.L.~Bogomolov}{\pspp} \PL{FLNR}{}{A.A.~Efremov, G.N.~Ivanov, V.Ya.~Lebedev} \PL{VBLHEP}{}{E.D.~Donets, V.M.~Drobin} %3 \item \PS{MT25 microtron development}{Yu.G.~Teterev}{\pspp\\ \psdt} \PL{FLNR}{}{A.G.~Belov, N.A. Kozlenko, S.V.~Pashenko, M.V.~Habarov, N.F.~Osipov} %4 \item \PS{Creation of the new experimental hall in FLNR}{G.G.~Gulbekian}{\pspp} \PL{FLNR}{}{B.N.~Gikal, V.A.~Kostyrev, N.F.~Osipov, P.G.~Bondarenko, S.L.~Bogomolov, L.N.~Gusev, S.V.~Pashenko, M.V.~Habarov, I.V.~Kalagin, V.A.~Verevochkin} %5 \item \PS{Development of the project ACCULINNA-2}{A.S.~Fomichev}{\pspp} \PL{FLNR}{}{S.A.~Krupko, A.V.~Gorshkov, V.A.~Gorshkov, G.M.~Ter-Akopian, A.A.~Bezbakh, Yu.L.~Parfenova, S.I.~Sidorchuk, R.S.~Slepnev, G.~Kaminsky, V.~Chudoba, R.~Wolski, M.S.~Golovkov} %6 \item \PS{Modernization of the separator VASSILISSA}{A.V.~Eremin}{\pspp} \PL{FLNR}{}{O.N.~Malyshev, A.I.~Svirikhin, I.N.~Izosimov, V.I.~Chepigin, M.L.~Chelnokov, A.V.~Isaev, I.M.~Merkin, A.N.~Kuznetsov, E.A.~Sokol, D.E.~Katrasev, V.A.~Sbitnev, V.M.~Popov} %7 \item \PS{Development of the gas catcher project}{A.M.~Rodin}{\pspp} \PL{FLNR}{}{L.~Krupa, A.V.~Belozerov, D.V.~Vanin, A.V.~Guljaeva, V.S.~Salamatin, I.~Sivachek, S.V.~Stepantsov, S.A.~Yukhimchuk} %8 \item \PS{Development of the project \\of a new gas-filled separator}{A.G.~Popeko}{\pspp} \PL{FLNR}{}{O.N.~Malyshev, A.I.~Svirikhin, A.V.~Eremin, A.V.~Isaev, D.V.~Vanin} %9 \item \PS{Development of the project \\of a separator based on resonance \\laser ionization}{V.I.~Zagrebaev}{\pspp} \PL{FLNR}{}{S.G.~Zemlynoy, V.I.~Zhemenik, G.V.~Myshinskiy, E.M.~Kozulin} \end{stage-tr} \begin{intcoop} \mtab{Belgium}{Leuven}{K.U.Leuven} \mtab{}{Louvain-la-Neuve}{IBA} \mtab{Bulgaria}{Sofia}{LTD BAS} \mtab{}{}{INRNE BAS} \mtab{China}{Lanzhou}{IMP CAS} \mtab{Czech Republic}{Prague}{VP} \mtab{}{}{CU} \mtab{}{Rez}{NPI ASCR} \mtab{Democratic People's \\Republic of Korea}{Pyongyang}{IFR SCNR} \mtab{Egypt}{Cairo}{AASTMT} \mtab{France}{Caen}{GANIL} \mtab{}{Grenoble}{LPSC} \mtab{}{Orsay}{IPN Orsay} \mtab{Germany}{Darmstadt}{GSI} \mtab{Italy}{Catania}{INFN LNS} \mtab{Kazakhstan}{Almaty}{INP NNC RK} \mtab{}{Astana}{BA INP NNC RK} \mtab{Mongolia}{Ulaanbaatar}{NRC NUM} \mtab{Poland}{Krakow}{NINP PAS} \mtab{}{Warsaw}{UW} \mtab{Romania}{Bucharest}{IFIN-HH} \mtab{}{}{N\&V} \mtab{Russia}{Moscow}{GPI RAS} \mtab{}{}{ITEP} \mtab{}{Nizhny Novgorod}{IAP RAS} \mtab{}{Novosibirsk}{BINP SB RAS} \mtab{}{Sarov}{VNIIEF} \mtab{}{St. Petersburg}{NIIEFA} \mtab{}{Vladimir}{ELMAG} \mtab{Serbia}{Belgrade}{INS "VINCA"} \mtab{Slovak Republic}{Bratislava}{IMS SAS} %\mtab{}{Nova Dubnica}{EVPU} \mtab{South Africa}{Cape Town}{iThemba LABS} \mtab{Ukraine}{Kiev}{KINR NASU} \mtab{Uzbekistan}{Samarkand}{SSU} \end{intcoop}