              

\TN{04-5-1076-2009/2014}{1}{\tsprg}
{Radiation Effects and Physical Basis of Nanotechnology, Radioanalytical \\and Radioisotope
 Investigations at the FLNR Accelerators}
{S.N.~Dmitriev\\ P.Yu.~Apel}

\TC{Belarus, Bulgaria, China, Czech Republic, Egypt, Germany, Hungary,      
    Kazakhstan, Moldova, Mongolia, Poland, Romania, Russia, Serbia, 
    Slovak Republic, South Africa, Spain, Ukraine, United Kingdom, USA, Vietnam.}

\TA Study of effects produced by heavy ions in matter aiming at the development of 
    nanotechnological applications of ion beams. Works related to life sciences: production 
    of ultra-pure isotopes and research of the properties of practically important 
    radionuclides. 
    Modernization of the FLNR accelerator complex for the production of medical isotopes and 
    development of methods of material modification.

%%\vspace*{4mm}
{\bf Expected main results in 2013:}
\begin{itemize}
%1
\item Studies of radiation tolerance of nanostructured ZrN against impact of heavy ions of fission 
      fragments energy.
%2
\item Studies of high density ionization effects on deuterium and helium porosity in silicon under 
      swift heavy ion irradiation.
%3
\item Optimization of properties of asymmetric track membranes with several arrays of interseting pores 
      for practical purposes such as plasmapheresis, water purification and others.
%4
\item Study of electrical asymmetry of nanopores, filled with electrolyte solutions, caused by 
      heterogeneous distribution of electrical charge on surface.
%5
\item Development of the methodology for titanium dioxide deposition on the polyester track etched membranes 
      study of structure, physico-chemical and photocatalytic properties of the synthesized membrane 
      using thin films of titanium dioxide and noble metals.
%6
\item Instigation of gas permeation properties of heavy ion irradiated polymeric films 
      (polyethelenetherephtelate, polyimide – MATRIMID and polymetilpenten) in system hydrogen/methane.
%7
\item Investigation of the  4 and 5 valenty element separation using nanostructure materials.
%8
\item Investigation of  possibility of the  $^{117m}$Sn and $^{195m}$Pt  separations obtained in 
      photonuclear reactions $^{118}$Sn($\gamma$,n)  end $^{196}$Pt($\gamma$,n) using 
      Szilard - Chalmers’ method.
%9
\item Comissioning of the DC110 cyclorton for applied research in the framework of the Beta project.
\end{itemize}

\begin{stage-tr}
%1
\item \PS{Investigations of radiation \\damages in solids and \\formation 
of nanostructures}{V.A.~Skuratov\\P.Yu.~Apel}{\psdt}
      \PL{FLNR}{}{V.À.~Skuratov, P.Yu.~Apel, À.Yu.~Didyk, V.K.~Semina,
          O.L.~Orelovich, V.V.~Shirkova, G.N.~Akap'ev, I.V.~Blonskaja, 
          L.I.~Kravets, O.M.~Ivanov, V.A.~Shchegolev}
      \PL{LIT}{}{I.V.~Amirhanov, I.V.~Puzynin, V.N.~Robuk}
      \PL{FLNP}{}{À.I.~Kuklin}
%2
\item \PS{Investigation of materials\\with low energy ions using\\ECR ion source}{V.F.~Reutov}{\pspp}
      \PL{FLNR}{}{V.F.~Reutov, À.S.~Sokhatsky}
%3
\item \PS{Production of ultra-pure \\isotopes}{S.N.Dmitriev}{\psdt}
      \PL{FLNR}{}{O.D.~Maslov, G.Ya.~Starodub, A.V.~Sabelnikov, Yu.V.~Albin,
                  G.A.~Bozhikov, G.K.~Vostokin, M.V.~Gustova, T.P.~Drobina,
                  V.A.~Shchegolev}
%4
\item \PS{Radioanalytical studies}{O.D.~Maslov}{\psdt}
      \PL{FLNR}{}{O.D.~Maslov, A.V.~Sabelnikov, M.V.~Gustova, T.P.~Drobina}
%5
\item \PS{Design of accelerator\\ complexes for nuclear\\medicine and radiation\\
physics}{S.N.~Dmitriev\\A.A.~Chumbalov}{\pspp\\ \pspp}
      \PL{FLNR}{}{B.N.~Gikal, I.V.~Kolesov, A.A.~Chumbalov}
      \PL{DLNP}{}{A.G.~Molokanov}
\end{stage-tr}

\begin{intcoop}
\mtab{Belarus}{Minsk}{BSU}
\mtab{}{}{NC PHEP BSU}
\mtab{}{}{RIAPP BSU}
\mtab{}{Gomel}{GSU}
\mtab{}{}{GB NASB}
\mtab{}{}{GEI}
\mtab{Bulgaria}{Plovdiv}{PU}
\mtab{China}{Beijing}{Beijing Fert Co}
\mtab{Czech Republic}{Rez}{NPI ASCR}
\mtab{Egypt}{Cairo}{TIMS}
\mtab{Germany}{Darmstadt}{GSI}
\mtab{}{Quedlinburg}{IST}
\mtab{}{}{MiCryon Technik}
\mtab{Hungary}{Budapest}{ELTE}
\mtab{Kazakhstan}{Almaty}{INP NNC RK}
\mtab{}{}{IPT}
\mtab{Moldova}{Chisinau}{IAP ASM}
\mtab{Mongolia}{Ulaanbaatar}{NUM}
\mtab{Poland}{Warsaw}{INCT}
\mtab{}{}{ITR}
\mtab{}{}{UW}
\mtab{}{Lublin}{MCSU}
\mtab{}{Torun}{NCU}
\mtab{Russia}{Moscow}{IC RAS}
\mtab{}{}{MATI}
\mtab{}{}{MIEM}
\mtab{}{}{LPI RAS}
\mtab{}{}{GPI RAS}
\mtab{}{}{Technomedexport}
\mtab{}{}{ISPM RAS}
\mtab{}{}{MUCTR}
\mtab{}{}{MSU}
\mtab{}{Moscow, Troitsk}{ISAN}
\mtab{}{Dubna}{Trackpore Technology}
\mtab{}{}{IINC}
\mtab{}{Novosibirsk}{ISP SB RAS}
\mtab{}{St. Petersburg}{IPTI RAS}
\mtab{}{Saratov}{SSMU}
\mtab{Serbia}{Belgrade}{INS "VINCA"}
\mtab{Romania}{Bucharest}{INFLPR}
\mtab{Slovak Republic}{Bratislava}{BIONT}
\mtab{}{}{CU}
\mtab{}{}{IEE SAS}
\mtab{South Africa}{Port Elizabeth}{NMMU}
\mtab{Spain}{Madrid}{IA}
\mtab{}{Valencia}{UV}
\mtab{Ukraine}{Kharkov}{IERT NASU}
\mtab{}{Simferopol}{SIMPEX}
\mtab{United Kingdom}{London}{Middlesex Univ.}
\mtab{}{Teddington}{NPL}
\mtab{USA}{Ann Arbor, MI}{U-M}
\mtab{}{Irvine, CA}{UCI}
\mtab{}{Oak Ridge, TN}{ORNL}
\mtab{Vietnam}{Hanoi}{IP VAST}
\end{intcoop}