\TN{02--0--1079--2009/2011}{1}{\tscom}
{Study of \boldmath $e^+ e^-$ Interactions: Physics and Detectors}
{A.G.~Olshevskiy}
\TC{ Armenia, Belarus, Bulgaria, CERN, China, Czech Republic, France, Georgia, Germany, Japan, Italy, Poland, Russia,
Switzerland, Ukraine, United Kingdom, USA.}
\TA Study of $e^+ e^-$ interactions from very low energies up to
very high has always been considered as an important precision
tool, complementary to hadron machines. The project to build the
International Linear Collider (ILC) is considered by the
high--energy physics community as the next step in
accelerator--based particle physics. Development of the physics
program and detector design and prototyping is a necessary step to
prepare participation in this worldwide activity.
{\bf Expected main results in 2011:
}
\begin{itemize}
\item Development of Monte Carlo tools for calculation of complex
processes.
\item Test of calorimeter detectors.
\item Design of fast digitizing electronics.
\item Data taking and analysis of the BES-Ø experiment.
\end{itemize}
%%\begin{project}
%%\item \PList{SANC}{D.Yu.~Bardin}{1}{2003}{2012}
%%\item \PList{BES-Ø}{A.S.~Zhemchugov}{1}{2007}{2013}
%%\end{project}
\begin{stage}
\item [] \PS{ILC}{ A.G.~Olshevskiy}{\psinp}
\PL{DLNP}{}{V.N.~Duginov + 4 pers.\\E.M.~Syresin\\ N.B.~Skachkov + 1 pers.\\G.A.~Chelkov\\Z.V.~Krumshteyn + 2 pers. }
\PL{BLTP}{A.V.~Efremov}{S.B.~Gerasimov\\ A.B.~Arbuzov\\D.I.~Kazakov
\\ E.A.~Kuraev\\G.A.~Kozlov \\O.V.~Teryaev + 1 pers.}
\PL{VBLPHE}{I.A.~Tyapkin}{I.A.~Tyapkin + 3 pers.\\Z.~Sadygov + 3 pers.}
\PL{SCAR}{V.N.~Samoilov }{V.N.~Samoilov + 3 pers.}
\item [] \PS{SANC}{D.Yu.~Bardin}{\psinp}
\PL{DLNP}{}{L.V.~Kalinovskaya + 3 pers.\\P.~Christova + 2 pers.}
\item [] \PS{BESS-III}{A.S.~Zhemchugov}{\psinp}
\PL{DLNP}{}{I.R.~Boyko + 2 pers.\\D.V.~Dedovich\\Yu. A.~Nefedov + 1 pers.}
\PL{BLTP}{}{ E.A.~Kuraev + 1 pers.\\O.V.~Teryaev + 1 pers.}
\end{stage}
\begin{intcoop}
\mtab{ Armenia}{Yerevan}{YerPhI}
\mtab{Belarus}{Minsk}{NC PHEP BSU}
\mtab{ Bulgaria}{Sofia}{INRNE BAS}
\mtab{}{Shumen}{US}
\mtab{ CERN}{Geneva}{}
\mtab{China}{Beijing}{IHEP CAS}
\mtab{ Czech Republic}{Prague}{CU}
\mtab{ France}{Paris}{UPMC}
\mtab{}{}{College de France}
\mtab{}{Strasbourg}{IPHC}
%\mtab{ Georgia}{Tbilisi}{ IP}
\mtab{Germany}{Hamburg}{DESY}
\mtab{}{Munich}{MPI-P}
\mtab{}{Zeuthen}{DESY}
\mtab{Japan}{Tsukuba}{KEK}
\mtab{Italy}{Turin}{Univ.}
\mtab{Poland}{Krakow}{JU}
\mtab{ Russia}{Moscow}{ITEP}
\mtab{}{Novosibirsk}{BINP SB RAS}
\mtab{}{Gatchina}{PNPI RAS}
\mtab{}{Troitsk}{INR RAS}
\mtab{Switzerland}{Villigen}{PSI}
\mtab{}{Bern}{Uni Bern}
\mtab{Ukraine}{Kharkov}{ISC NASU}
\mtab{United Kingdom}{Oxford}{Univ.}
\mtab{USA}{Gainesville, FL}{UF}
\end{intcoop}
\TN{02--2--1098--2010/2012}{1}{\tsprg}
{Study of Processes with Symmetry Violation}
{A.S.~Kurilin}
\TC{ Belarus, Czech Republic, France, Japan, Poland, Republic of Korea, Russia, Slovak Republic, Taiwan,
Ukraine, USA.}
\TA Test of Standard Model predictions.
Investigation of rare decays of K-mesons. Search for the
$K^0_L \rightarrow \pi^0 \nu \bar{\nu}$ decay with direct
CP violation in experiments on JPARC and U-70 (SRC-IHEP.)
Search for the $K^0_L \rightarrow \pi^0 \pi^0$ + Õ decay.
Test of the nuclear Hamiltonian in few-nucleon systems. Study of 3N
interactions with a polarized neutron beam and a polarized deuteron target
at an energy about 16~MeV.
Measurement of $\sigma_L$ and $\sigma_T$ in the $nd$-scattering.
Experimental verification of the Gerasimov--Drell--Hearn (GDH) sum rule.
Measurement of spin--depen\-dent asymmetry $\sigma_p - \sigma_a$ using the new polarized
deuteron target and the Crystal Ball detector at polarized photon energies up
to 1.5~GeV.
{\bf Expected main results in 2011:
}
\begin{itemize}
\item Development of GEANT4--based simulation, DAQ and data analysis
software.
\item Design and test of the new detectors.
\item Data analysis and extraction of the new data for the rare decay of $K^0_L$.
\item Design of the $K^0_L$ beam line and the KOTO setup for the
experiment at JPARC (Japan).
\item Design of the $K^0_L$ beam line for the experiment
at U--70 (SRC-IHEP).
\item Measurement of $\sigma_L$ in the $nd$ scattering.
Modification of the experimental design used in the $\sigma_L$ experi\-ments for transverse
polarization.
\item Adapting of the Dubna-made polarized target in Mainz.
\end{itemize}
%%\begin{project}
%%\item \PList{NN & GDH}{A.~Kovalik}{1}{2006}{20011}
%%\end{project}
\begin{stage}
\item \PS{Search for the $K^0_L \rightarrow \pi^0 \nu \bar{\nu}$
decay}{A.S.~Kurilin}{\pspt\\ \psdt\\ \psda}
\PL{DLNP}{}{V.A.~Baranov\\V.A.~Bednyakov}
\PL{}{}{G.~Dolbilova\\E.S.~Kuzmin\\A.S.~Moiseenko\\Yu.Yu.~Stepanenko\\S.Yu.~Porokhovoi\\V.M.~Romanov
\\Z.B.~Tsamalaidze \\M.P.~Chavleyshvily}
\PL{BLTP}{}{D.I.~Kazakov\\A.V.~Gladyshev }
\PL{VBLHEP}{}{A.I.~Malakhov\\V.A.~Krasnov}
\item \PS{NN & GDH}{Yu.A.~Usov\\S.B.~Gerasimov\\
I.L.~Pisarev \\}{\pspt\\ \psdt}
\PL{DLNP}{}{N.S.~Borisov + 7 pers.\\E.V.~Kuzmin\\S.S.~Kamalov}
\end{stage}
\begin{intcoop}
\mtab{ Belarus}{Gomel}{ GSU}
\mtab{}{Minsk}{NC PHEP BSU}
\mtab{}{}{INP BSU}
\mtab{ Czech Republic}{Prague}{CU}
\mtab{ France}{Saclay}{IRFU }
\mtab{ Japan}{Ibaraki}{Ibaraki Univ.}
\mtab{}{Kyoto}{Kyoto Univ.}
\mtab{}{ Osaka}{Osaka Univ.}
\mtab{}{}{RCNP}
\mtab{}{ Saga}{Saga Univ.}
\mtab{}{Tsukuba}{ KEK}
\mtab{}{Yamagata}{Yamagata Univ.}
\mtab{Poland}{Krakow}{JU}
\mtab{Republic of Korea}{Pusan}{PNU}
\mtab{}{Seoul}{SNU}
\mtab{}{Chongju}{CBNU}
\mtab{ Russia}{Moscow}{GPI RAS}
\mtab{}{}{ARRICT}
\mtab{}{}{NIKIET}
\mtab{}{}{SINP MSU}
\mtab{}{Protvino}{IHEP}
\mtab{}{Troitsk}{INR RAS}
\mtab{Slovak Republic}{Kosice}{IEP SAS}
\mtab{ Ukraine}{Kharkov}{KFTI NASU}
\mtab{USA}{East Lansing, MI}{MSU}
\mtab{ }{Chicago, IL}{UChicago}
\mtab{}{Tempe, AZ}{ASU}
\mtab{Taiwan}{Taipei}{NTU}
\end{intcoop}
\TN{02--2--1080--2009/2011}{1}{\tscom}
{Lifetime Measurement of \boldmath $\pi^+\pi^-$ and $\pi^\pm K^\mp$ Atoms \\
to Test Low--Energy QCD Precise Predictions}
{L.G.~Afanasyev}
%%\PLDDD{L.L.~Nemenov}
\TC{CERN, Czech Republic, Italy, Japan, Romania, Russia, Spain, Switzerland.}
\TA The experiment aims to measure the lifetime of
$\pi^+\pi^-$ atoms ($A_{2 \pi}$), to observe $\pi K$ atoms ($A_{\pi K}$) and
to measure their lifetime using the 24~GeV proton beam. The precise
measurement of these quantities will enable us to determine the
combination of $s$--wave pion-pion |$a_0 - a_2$| and pion--kaon
|$a_{1/2}-a_{3/2}$| scattering lengths (with isospin 0, 2 and 1/2, 3/2,
respectively) in a model--independent way. The precision of $A_{2 \pi}$
lifetime measurement will be better than 6\% and the difference
|$a_0 - a_2$| will be determined within 3\% or better. The accuracy of
$A_{\pi K}$ lifetime measurement will be at the level of 20\% and the
difference |$a_{1/2}-a_{3/2}$| will be determined at the level of 10\%.
Low energy QCD predicts these values with an accuracy about 2\% for the
pion-pion scattering lengths and about 10\% for the $\pi K$ scattering
lengths. The pion--pion and pion--kaon scattering lengths have never been
verified with experimental data with the same level of precision. For this
reason the proposed measurements will be a crucial check of the low-energy
QCD predictions and our understanding of the nature of the QCD vacuum.
{\bf Expected main results in 2011:}
\begin{itemize}
\item Preparation of the addendum to the DIRAC project on the
observation of the long-lived states of $\pi^+\pi^-$ atoms.
\item Data taking for observation of $\pi K$ atoms and improvement
in $\pi^+\pi^-$ atom lifetime measurement.
\item Data taking for estimation of yeilds of the long-lived states of
$\pi^+\pi^-$ atoms.
\item Completion of the analysis of the data on the $\pi^+\pi^-$
atom lifetime measurement and publication of the results.
\item Processing of the 2008--2009 data on the $\pi K$ atoms
observation and investigation of $\pi^+\pi^-$ atoms.
\end{itemize}
%\begin{project}
%\item \PList{DIRAC }{L.L.~Nemenov}{1}{1995}{2008}
%\end{project}
\begin{stage}
\item[] \PS{DIRAC }{L.G.~Afanasyev}{\psdt\\ \psda}
\PL{DLNP}{}{L.G.~Afanasyev\\M.V.~Zhabitsky\\A.V.~Dudarev\\ V.V.~Karpukhin\\ V.V.~Kruglov\\E.~Kulish\\A.V.~Kulikov\\ A.V.~Kuptsov\\ L.L.~Nemenov\\ M.V.~Nikitin\\Zh.P.~Pustylnik\\A.V.~Tarasov}
\PL{LIT}{}{P.V.~Zrelov \\O.V.~Voskresenskaya\\ L.Yu.~Kruglova}
\end{stage}
\begin{intcoop}
\mtab{ CERN }{Geneva}{}
\mtab{ Czech Republic}{Prague}{CTU}
\mtab{}{}{IP ASCR}
%\mtab{Greece}{Ioannina}{UI}
\mtab{ Italy}{Frascati}{INFN LNF}
\mtab{}{ Messina}{Univ.}
\mtab{}{Trieste}{INFN}
\mtab{ Japan}{Kyoto}{KSU}
%\mtab{}{Fukuoka}{ Kyushu Univ.}
\mtab{}{Tsukuba}{KEK}
\mtab{}{Tokyo}{TMU}
\mtab{ Romania}{Bucharest}{IAP}
\mtab{ Russia}{Moscow}{SINP MSU}
\mtab{}{Protvino}{IHEP}
\mtab{Spain}{Santiago de Compostela}{USC}
\mtab{ Switzerland}{Bern}{Uni Bern}
%\mtab{}{ Basel}{Uni Basel}
\mtab{}{ Zurich}{UZH}
\end{intcoop}
\TN{02--0--1081--2009/2013}{1}{\tsprg}
{A~T~L~A~S. \\
Physics Research at the LHC }
{ N.A.~Russakovich\\V.A.~Bednyakov}
\TLD{A.P.~Cheplakov}
\TC{Armenia, Azerbaijan, Belarus, Canada, CERN, Czech Republic, France, Georgia, Germany, Greece, Israel,
Italy, Netherlands, Russia, Slovak Republic, Spain, USA, Uzbekistan.}
\TA Many-sided and comprehensive investigations of superhigh-energy (10-14~TeV)
proton scattering at the Large Hadron Collider with the ATLAS facility
(created at the previous stage of the project) will yield utterly new and
unique experimental data. Their analysis will allow solution to the most
profound physical problems fundamentally important for world outlook.
JINR researchers will take part in solution of some of these
problems within the project. Among the most important of them are
the clarification of the origin of the elementary particle mass
(Higgs mechanism) and search for and investigation of
supersymmetry, which will allow an insight into the nature of
galactic dark matter and the character of the evolution of our
Universe. Other important problems are determination of the
applicability boundaries of the modern standard model of
elementary particles and observation of evidence for new physical
phenomena, such as additional space dimensions or previously
unknown particles and interactions. In addition, JINR researchers
will get new results allowing more specific knowledge as to the
properties of the already known elementary particles such as the W
and Z bosons, the top quark, and others.
Implementation of this project aimed at solving highly important
scientific problems will result in getting unique applied data.
The "by-products" worth noting are development, debugging, and
experience in operation of systems for remote monitoring of highly
complicated devices and development and practical use of the
distributed compu\-tation system (GRID) in a long-term, full-scale
experiment.
{\bf Expected main results in 2011:}
\begin{itemize}
\item Operation of ATLAS detector and the remote monitoring system at JINR.
\item Start of data development and analysis of the first ATLAS data with a view to calibrating
the detector, studying its characteristics, etc.
\item The first physical results to be obtained in minimum bias physics and in investigations of
some key processes of the Standard Model, including
high-multiplicity processes, Drell-Yan processes, and others.
\item Development of ATLAS physics programme: physical processes
simulations, participation in ATLAS working group, etc.
\end{itemize}
%%\begin{project}
%%\item \PList{ATLAS}{N.A.~Russakovich\\V.A.~Bednyakov}{1}{2010}{2014}
%%\end{project}
\begin{stage}
\item[] \PS{ATLAS }{}{\pstp}
\PL{DLNP}{V.A.~Bednyakov\\J.A.~Budagov\\D.I.~Hubua \\G.A.~Chelkov}{A.L.~Gongadze\\Yu.A.~Koultchitski\\I.L.~Pisarev
\\I.R.~Boyko\\M.A.~Demichev\\
Z.V.~Krumshteyn\\M.I.~Gostkin
\\I.A.~Minashvili\\G.L.~Glonty\\D.V.~Dedovich\\Yu.A.~Nefedov\\D.V.~Kharchenko
\\Yu.A.~Usov\\M.Yu.~Kazarinov\\V.A.~Kolesnikov\\S.N.~Malyukov\\V.Yu.~Batusov\\E.V.~Khramov\\R.R.~Sadykov\\M.V.~Chizhov\\
V.V.~Glagolev\\P.V.~Tereshka\\Z.U.~Usubov\\Yu.P.~Ivanov\\L.V.~Kalinovskaya\\S.N.~Karpov\\Z.M.~Karpova
\\A.B.~Lazarev\\G.I.~Lykasov\\V.V.~Lyubushkin\\A.F.~Pikelner\\M.S.~Ryabenko\\A.A.~Sapronov\\A.N.~Shalyugin
\\M.M.~Shiyakova\\V.B.~Vinogradov\\A.C.~Zhemchugov\\S.N.~Baranov\\D.Yu.~Bardin\\Yu.L.~Vertogradova
\\A.V.~Ershova\\N.~Huseinov}
\PL{VBLHEP}{A.P.~Cheplakov\\V.D.~Peshekhonov}{G.D.~Kekelidze\\S.M.~Golubykh\\N.~Dzhavadov
\\S.S.~Parzhitsky\\E.A.~Ladygin\\F.N.~Ahmadov\\V.V.~Kukhtin\\M.N.~Kapishin\\V.N.~Pozdnyakov\\B.G.~Shaykhatdenov
\\A.G.~Karev\\N.G.~Fadeev\\L.A.~Merkulov\\V.V.~Myalkovsky\\E.V.~Serochkin\\A.A.~Soloshenko\\N.I.~Zimin}
\PL{LIT}{P.V.~Zrelov \\V.V.~Korenkov\\V.M.~Kotov}{I.N.~Aleksandrov\\N.I~Gromova\\M.A.~Mineev\\V.N.~Shigaev
\\A.V.~Yakovlev }
\PL{BLTP}{D.I.~Kazakov}{A.V.~Gladyshev\\A.V.~Bednyakov\\O.B.~Teryaev\\N.I.~Kochelev}
\end{stage}
\begin{intcoop}
\mtab{ Armenia}{Yerevan}{YerPhI}
\mtab{ Azerbaijan}{Baku}{IP ANAS}
\mtab{ Belarus}{Minsk}{IP NASB}
\mtab{}{}{NC PHEP BSU}
\mtab{}{Gomel}{GSTU}
\mtab{}{}{BelSUT}
\mtab{ Canada }{Vancouver}{TRIUMF}
\mtab{}{Montreal}{UdeM}
\mtab{ CERN }{Geneva}{}
\mtab{ Czech Republic}{Prague}{CU}
\mtab{ France}{Clermont-Ferrand}{LPC-CF}
\mtab{}{Orsay}{LAL}
\mtab{ Georgia}{Tbilisi}{HEPI TSU}
\mtab{ Germany}{Munich}{MPI-P}
\mtab{Greece}{Athens}{Univ.}
\mtab{ Israel}{Rehovot}{WIS}
\mtab{ Italy}{Pisa}{Univ.}
\mtab{ Netherlands}{Amsterdam}{NIKHEF}
\mtab{ Russia}{Moscow}{LPI RAS}
\mtab{}{}{MEPhI}
\mtab{}{}{ITEP}
%\mtab{}{}{CC RAS}
\mtab{}{}{MSU}
\mtab{}{Protvino}{ IHEP}
\mtab{ Slovak Republic}{Bratislava}{CU}
\mtab{}{}{IP SAS}
\mtab{ Spain}{Barcelona}{ IFAE}
\mtab{ USA}{Argonne, IL}{ANL}
\mtab{ Uzbekistan}{Samarkand}{SSU}
\end{intcoop}
\TN{02--0--1082--2009/2011}{1}{\tscom}
{ JINR's Participation in Experiments at the Fermilab Tevatron \\
(Projects D0, CDF)}
{ G.D.~Alexeev\\ V.V.~Glagolev}
%%\PLDDD{J.A.~Budagov}
\TC{Belarus, Chile, Georgia, Greece, Italy, Romania, Slovak Republic, USA, Ukraine, Uzbekistan.}
\TA
\begin{itemize}
\item Running and development of the forward muon system with electronics,
data collection and physics analysis (D0).
\item R&D, production, commissioning and running of the
enlarged acceptance central muon scintillation counter trigger,
preshower, time-of-flight and new Si--strip detector based
triggers. Data collection, proces\-s\-ing; physics analysis (CDF).
\end{itemize}
{\bf Expected main results in 2011:}
\begin{itemize}
\item Development of the D0 \ software; data taking and analysis;
measurement of $\Xi_{b}$ mass, preliminary results on proton structure functions.
\item Maintenance of the CDF muon scintillation counter trigger.
Data taking and analysis; new data for
top mass and for Very High Multiplicity studies.
\end{itemize}
%%\begin{project}
%%\item \PList{D0}{G.D.~Alexeev}{1}{1997}{2011}
%%\item \PList{CDF}{J.A.~Budagov}{1}{1997}{2011}
%%\end{project}
\begin{stage}
\item \PS{ D\O}{G.D.~Alexeev}{\psdt\\ \psda}
\PL{DLNP}{}{V.N.~Abazov\\D.V.~Bandurin\\L.S.~Vertogradov\\Yu.L.~Vertogradova\\A.Yu.~Verkheev\\G.A.~Golovanov
\\N.I.~Zhuravlev\\D.E.~Korablev\\V.L.~Malyshev\\M.A.~Patsyuk\\Yu.P.~Merekov\\N.A.~Russakovich\\N.B.~Skachkov\\I.N.~Churin
\\V.V.~Tokmenin\\Yu.N.~Kharhzheev\\A.M.~Rojdestvenski\\Yu.A.~Yatsunenko}
\item \PS{ CDF}{J.A.~Budagov\\}{\psdt\\ \psda }
\PL{DLNP}{}{A.M.~Artikov\\V.Yu.~Batusov\\V.V.~Glagolev\\V.I.~Kolomoets\\S.M.~Kolomoets\\M.V.~Lyablin\\Yu.A.~Koultchitski
\\I.A.~Suslov\\F.~Prokoshyn\\A.V.~Simonenko\\A.V.~Sazonova \\D.I.~Hubua\\A.A.~Semenov\\I.E.~Chirikov-Zorin\\V.B.~Flyagin
\\D.Sh.~Chokhely }
\PL{BLTP}{}{G.A.~Kozlov }
%\PL{VBLHEP}{}{}
\PL{LIT}{}{V.V.~Ivanov\\P.V.~Zrelov\\V.V.~Uzhinsky \\A.M.~Raportirenko }
%\PL{SCAR}{ }{V.N.~Samoilov}
\end{stage}
\begin{intcoop}
\mtab{Belarus}{Minsk}{NC PHEP BSU}
\mtab{Chile}{Valparaiso}{Univ.}
\mtab{Georgia}{Tbilisi}{HEPI TSU}
\mtab{Greece}{Athens}{Univ.}
\mtab{Italy}{Pisa}{Univ.}
\mtab{}{}{INFN}
\mtab{}{Udine}{Univ.}
\mtab{Romania}{Bucharest}{IFIN-HH}
\mtab{Slovak Republic}{Bratislava}{IP SAS}
\mtab{}{}{CU}
\mtab{USA}{Argonne, IL}{ANL}
\mtab{}{Batavia, IL}{Fermilab}
\mtab{}{Boston, MA}{NU}
%\mtab{}{Gainesville, FL}{UF}
%\mtab{}{Madison, WI}{UW-Madison}
\mtab{}{New York, NY}{SUNY}
\mtab{Ukraine}{Kharkov}{ISC NASU}
\mtab{Uzbekistan}{Samarkand}{SSU}
\end{intcoop}
%
\TN{02--2--1099--2010/2012}{1}{\tsprg}
{Study of Neutrino Oscillations }
{Yu.A.~Gornushkin}
\TLD{O.Yu.~Smirnov}
\TC{ Belgium, Bulgaria, CERN, China, Croatia, Czech Republic, France, Germany, Hungary, Japan, Italy, Russia, Spain,
Switzerland, United Kingdom, Ukraine, USA.}
\TA
- Long-baseline neutrino oscillation search and study of
neutrino oscillation parameters with the OPERA detector in the CNGS beam (CERN--Gran
Sasso)--project OPERA
- Search for solar neutrino vacuum oscillations.
Direct solar neutrino flux measurements, precise Âå$^{7}$ neutrino flux
measurements with the BOREXINO detector.
- Measurement of the $\theta{_1}{_3}$ neutrino mixing angle
in the Daya Bay experiment.
- Study of secondary hadron emission in $p$ and $\pi$ interactions with
nuclear targets for justification of the
neutrino flux in the current experiments.
{\bf Expected main results in 2011:
}
\begin{itemize}
\item Data taking with neutrinos from the CNGS beam at the OPERA
detector.
\item Scanning and analysis of OPERA nuclear
emulsion at JINR.
\item Software development for the Target Tracker data analysis. Development of
the Brick Finding software, analysis of electronic detector data
and event vertex location.
\item The continuation of the data taking with the BOREXINO detector.
\item Analysis of results of the calibration campaign with
internal light sources.
\item Development of new position reconstruction algorithm for Borexino detector.
\item The study of day/night and seasonal variations of the solar
neutrino flux.
\item Precise measurement of the Be-7 flux with total errors down 5\%.
\item Improvement of the current results on the effective solar neutrino magnetic moment.
\item Limits on solar antineutrino flux and relic supernovae flux.
\item Participation in tests and assembly of the Daya Bay central detector.
\item Development of Monte Carlo software for cosmogenic
background simulation in the Daya Bay experiment.
\end{itemize}
%%\begin{project}
%%\item \PList{OPERA}{Yu.A.~Gornushkin}{1}{2010}{2012}
%%\item \PList{BOREXINO}{O.A.~Zaimidoroga}{1}{1996}{2012}
%%\item \PList{Daya Bay}{R.~Leitner}{1}{2009}{2011}
%%\end{project}
\begin{stage}
\item \PS{OPERA }{Yu.A.~Gornushkin }{\psdt}
\PL{DLNP}{}{S.G.~Dmitrievsky\\Z.V.~Krumshtein\\A.A.~Nozdrin\\S.G.~Zemskova\\A.V.~Chukanov\\A.V.~Krasnoperov
\\A.B.~Sadovsky\\V.V.~Tereschenko \\D.V.~Naumov \\S.V.~Tereschenko\\B.~Zhuravlev\\A.S.~Sheshukov}
\PL{VBLHEP}{}{Yu.P.~Petukhov}
\PL{LIT}{}{A.Ya.~Astakhov\\G.A.~Ososkov }
\item \PS{BOREXINO }{O.Yu.~Smirnov}{\psdt}
\PL{DLNP}{}{A.P.~Sotnikov\\K.A.~Fomenko\\D.V.~Korablev}
\item \PS{Daya Bay}{}{\psinp}
\PL{DLNP}{}{Yu.A.~Gornushkin\\D.V.~Naumov \\I.P.~Nemchonok \\A.G.~Olshevskiy\\O.Yu.~Smirnov\\M.~Gonchar}
\end{stage}
\begin{intcoop}
\mtab{Bulgaria}{Sofia}{SU}
\mtab{Belgium}{Brussels}{ULB}
\mtab{}{}{VUB}
\mtab{}{Geel}{IRMM}
\mtab{}{Leuven}{K.U.Leuven}
\mtab{CERN}{Geneva}{}
\mtab{China}{Beijing}{IHEP CAS}
\mtab{}{}{CIAE}
\mtab{Croatia}{Zagreb}{RBI}
\mtab{Czech Republic}{Prague}{CU}
\mtab{France}{Annecy-le-Vieux}{LAPP}
\mtab{}{Lyon}{IPNL}
\mtab{}{Orsay}{LAL}
\mtab{}{Paris}{UPMC}
\mtab{}{}{College de France}
\mtab{}{Strasbourg}{IPHC}
\mtab{Germany}{Dortmund}{TU Dortmund}
\mtab{}{Heidelberg}{MPI K}
\mtab{}{Munich}{MPI-P}
\mtab{Hungary}{Budapest}{KFKI RMKI}
\mtab{ Japan}{Nagoya}{Nagoya Univ.}
\mtab{Italy}{Bari}{Univ.}
\mtab{}{}{INFN}
\mtab{}{Genoa}{INFN}
\mtab{}{Naples}{INFN}
\mtab{}{Legnaro}{INFN LNL}
\mtab{}{Milan}{Unimi}
\mtab{}{}{INFN}
\mtab{}{Padua}{Univ.}
\mtab{}{Perugia}{ INFN}
\mtab{}{Pavia}{ INFN}
\mtab{}{Rome}{INFN}
\mtab{}{Trieste}{Univ.}
\mtab{}{}{INFN}
\mtab{Russia}{Moscow}{RRC KI}
\mtab{}{}{ITEP}
\mtab{}{Gatchina}{PNPI RAS}
%\mtab{}{Obninsk}{IPPE}
\mtab{}{Protvino}{IHEP}
\mtab{}{Troitsk}{INR RAS}
\mtab{Spain}{Valencia}{UV}
\mtab{Switzerland}{Bern}{Uni Bern}
\mtab{}{Neuchatel}{UniNe}
\mtab{}{Geneva}{UniGe}
\mtab{United Kingdom}{Didcot}{RAL}
\mtab{}{Oxford}{Univ.}
\mtab{}{Sheffield}{Univ.}
\mtab{USA}{Cambridge, MA}{MIT}
\mtab{}{Madison, WI}{UW-Madison }
\mtab{}{Princeton, NJ}{PU}
\mtab{}{Upton, NY}{BNL}
\mtab{}{Los Angeles, CA}{UCLA}
\mtab{}{Berkeley, CA}{Berkeley Lab}
\mtab{Ukraine}{Kharkov}{ISC NASU}
\end{intcoop}
\TN{02--0--1106--2011/2013}{1}{\tsnew}
{Investigations of the Compressed Baryonic Matter at the GSI Accelerator Complex
(Project CBM)}
{ A.I.~Malakhov\\V.V.~Ivanov}
\TLD{Yu.V.~Zanevsky\\V.P.~Ladygin}
\TC{Belarus, Bulgaria, Germany, Mongolia, Poland, Romania, Russia, Slovak Republic,Uzbekistan, Ukraine.}
\TA
Design and development of the superconducting dipole magnet, transition radiation,
straw and silicon tracker detectors for CBM experiment at the GSI accelerator complex.
Study of the multiparticle dynamics in heavy ion collisions at SIS100 and SIS300.
Algorithms and software developments for the trigger, simulation and data analysis.
{\bf Expected main results in 2011:
}
\begin{itemize}
\item Design of the superconducting dipole magnet for CBM experiment.
\item Design and testing of the transition radiation, straw and silicon tracker
detectors prototypes.
\item Development of the algorithms and software for the trigger and data analysis.
\item Simulation of the multiparticle dynamics in heavy ion collisions.
\end{itemize}
%%\begin{project}
%%%\item \PList{PANDA}{A.G.~Olshevskiy}{1}{2010}{2014}
%%\item \PList{CBM}{A.I.~Malakhov}{1}{2011}{2015}
%%\end{project}
\begin{stage}
\item \PS{CBM \\
Design and manufacture of the superconducting dipole magnet, the transition radiation and straw detectors, silicon
tracker. Development of the algorithms and software for trigger, simulation
and data analysis.}{ A.I.~Malakhov}{\psinp}
\PL{VBLHEP}{}{A.I.~Malakhov\\
Yu.S.~Anisimov + 1 pers.\\
E.A.~Matyushevsky + 3 pers.\\
Yu.V.~Zanevsky}
\PL{}{}{V.F.~Chepurnov \\S.P.~Chernenko\\O.V.~Fateev\\V.N.~Zryuev\\
S.V.~Razin\\G.A.~Cheremukhina\\V.P.~Ladygin + 3 pers.\\A.P.~Ierusalimov\\D.V.~Peshekhonov
\\ V.N.~Pozdnyakov + 1 pers.\\E.B.~Plekhanov\\V.D.~Peshekhonov + 6 pers. \\
Yu.A.~Murin+ 5 pers.\\V.M.~Golovatyuk\\O.V.Rogachevsky\\I.~Mandjavidze}
\PL{LIT}{}{V.V.~Ivanov + 8 pers.\\P.G.~Akishin\\S.A.~Baginyan\\G.N.~Ososkov + 2 pers.}
\PL{DLNP}{}{V.A.Karnaukhov + 2 pers.}
\PL{BLTP}{}{D.~Blaschke\\V.V.~Burov + 2 pers.\\ V.D.~Toneev}
%\item \PS{PANDA \\
%Preparation of project }{ A.G.~Olshevskiy\\ V.V.~Ivanov}{\pstp}
%\PL{DLNP}{}{G.D.~Alexeev\\ N.~Angelov\\G.B.~Pontekorvo + 2 pers.}
%\PL{VBLHEP}{}{E.A.~Strokovsky + 4 pers.\\M.G.~Sapozhnikov + 3 pers.\\A.S.~Vodopianov\\M.Yu.~Barabanov
%\\V.K.~Dodokhov + 3 pers.\\E.K.~Koshurnikov + 4 pers.\\G.S.~Shabratova + 1 pers.}
%\PL{LIT}{}{Gh.~Adam + 5 pers.}
%\PL{BLTP}{}{A.S.~Sorin + 5 pers.}
%\item \PS{PAX \\ Preparation of project }{A.V.~Kulikov
%\\A.P.~Nagaytsev}{\pstp}
%\PL{DLNP}{}{A.V.~Kulikov\\O.Yu.~Shevchenko + 1 pers.}
%\PL{VBLHEP}{}{A.P.~Nagaytsev + 5 pers.}
%\PL{BLTP}{}{A.V.~Efremov \\ O.V.~Teryaev + 2 pers.}
%\item[] \PS{ Preparation of projects and participation in the development\\
% of the GSI accelerator complex
% }{A.D.~Kovalenko\\G.V.~Trubnikov}{\pstp}
%\PL{VBLHEP}{}{N.N.~Agapov\\V.I.~Volkov + 5 pers.\\A.V.~Shabunov + 3 pers.\\G.G.~Khodzhibagiyan + 4 pers.
%\\V.A.~Mikhaylov + 1 pers.\\A.Yu.~Starikov + 4 pers.\\V.I.~Batin\\Yu.P.~Filippov}
%\PL{DLNP}{}{I.N.~Meshkov + 2 pers.}
%\PL{LIT}{}{P.G.~Akishin}
%
\end{stage}
\begin{intcoop}
\mtab{Belarus}{Minsk}{NC PHEP BSU}
\mtab{Bulgaria}{Sofia}{INRNE BAS}
%\mtab{}{}{TU-Sofia}
%\mtab{}{}{ISSP BAS }
%\mtab{ Czech Republic}{Prague}{VP}
%\mtab{}{}{IMC ASCR }
%\mtab{ }{Rez}{NRI }
\mtab{Germany}{Darmstadt}{GSI}
%\mtab{}{Erlangen}{Univ.}
\mtab{ }{Frankfurt/Main }{Univ.}
%\mtab{ }{Giessen }{JLU }
\mtab{ }{Heidelberg}{Univ.}
\mtab{ }{Dresden }{FZD }
%\mtab{}{Julich}{FZJ}
%\mtab{ }{Munich }{TUM }
%\mtab{Italy}{Ferrara}{INFN}
%\mtab{}{Frascati}{INFN LNF}
%\mtab{}{Turin}{}
\mtab{Mongolia}{Ulaanbaatar}{IPT MAS}
\mtab{Poland}{Warsaw}{WUT}
\mtab{Romania}{Bucharest}{IFIN-HH}
\mtab{}{}{INCDIE ICPE-CA}
\mtab{ Russia}{Moscow}{ITEP}
\mtab{}{}{SINP MSU}
%\mtab{ }{ }{MEPhI }
%\mtab{}{Dubna}{BSINP MSU}
%\mtab{ }{Kazan }{Compressormach}
\mtab{ }{Protvino }{IHEP}
\mtab{ }{Troitsk }{INR RAS }
\mtab{ Slovak Republic}{Bratislava}{IP SAS}
\mtab{}{}{CU}
\mtab{Ukraine}{Kiev}{BITP NASU}
\mtab{Uzbekistan}{Jizzakh}{JSPI}
\mtab{}{Samarkand}{SSU}
\end{intcoop}
\TN{02--0--1108--2011/2013}{1}{\tsnew}
{Experiment PANDA at the GSI
Accelerator Complex}{A.G.~Olshevskiy }
\TLD{G.D.~Alexeev\\A.S.~Vodopyanov }
\TC{ Belarus, Czech Republic, Germany, Italy, Russia, Ukraine }
\TA
The Study of the nuclear matter exotic states and
nucleon structure in PANDA experiment at GSI accelerator complex.
{\bf Expected main results in 2011:
}
\begin{itemize}
\item Development of the software, generators and criterions for the events selection.
\item Preparation of the tender documentation for magnet production.
\item Muon system TDR.
\end{itemize}
%%\begin{project}
%%\item \PList{PANDA}{A.G.~Olshevskiy}{1}{2011}{2014}
%%\end{project}
\begin{stage}
\item \PS{PANDA}{ A.G.~Olshevskiy}{\pstp}
\PL{DLNP}{G.D.~Alexeev}{G.D.~Alexeev + 15 pers.\\Skachkov N.B. + 5 pers.\\
N.~Angelov\\D.B.~Pontekorvo + 2 pers.}
\PL{VBLHEP}{A.S.~Vodopyanov}{A.S.~Vodopyanov + 10 pers.\\E.A.~Strokovsky + 4
pers.\\M.G.~Sapozhnikov + 3 pers.
\\V.K.~Dodokhov + 3 pers.\\E.K.~Koshurnikov + 4 pers.\\G.S.~Shabratova + 1 pers.}
\PL{LIT}{}{Gh.~Adam + 5 pers.\\V.~Uzhinsky \\}
\PL{BLTP}{}{A.S.~Sorin + 5 pers.\\O.V.~Teryaev + 2 pers.\\
A.V.~Efremov}
\end{stage}
\begin{intcoop}
\mtab{Belarus}{Minsk}{NC PHEP BSU}
\mtab{ Czech Republic}{Prague}{CU}
\mtab{Germany}{Darmstadt}{GSI}
\mtab{Italy}{Turin}{ Univ.}
\mtab{Russia}{Protvino }{IHEP}
\mtab{}{Dubna}{BSINP MSU}
%\mtab{Ukraine}{Kharkov}{ISMA}
\end{intcoop}
\TN{02--2--1090--2009/2011}{2}{\tscom}
{Astrophysical Studies in the TUS and NUCLEON Space Experiments }
{L.G.~Tkatchev}
\TC{ Czech Republic, Japan, Italy, Mexico, Republic of Korea, Russia. }
\TA
- The TUS space experiment has been proposed to address some of
the most important astrophysical and particle physics problems.
It is aimed to measure the energy spectrum, composition and angular
distribution of the Ultra High Energy Cosmic Rays (UHECR) at
$E \approx 10^{19}-10^{20}$~eV, to study the region beyond the GZK cutoff
which poses the question of an alternative mechanism for their origin due to
decays of supermassive particles predicted by the Grand Unification
Theory, which survived after the Big Bang. Existence of such particles
is beyond the Standard Model of particle physics and is of great interest
to the physical community. A study from the orbit is much more effective in
comparison with the ground-based detectors. The existing world statistics
is assumed to be increased by a factor of 2--3 during 3 years of the global data
taking. The TUS detector will make it possible to study UHECP
neutrino Extensive Air Showers (EAS) from the space orbit.
- The aim of the NUCLEON Project is direct CR measurements in the energy range
10$^{11}$-10$^{15}$~eV and the atomic charge range up to Z$\approx$40 in the near--Earth
space to solve mainly the "knee" problem in CR spectrum: a change of the
energy spectrum slope
from $E^{2.7}$ to $E^{3.0}$ at $\sim 10^{15}$~eV. The CR phenomena in this
energy region are investigated in terrestrial experiments by measurement
of EAS parameters or in
balloon or space experiments. Below $\sim 10^{14}$~eV the spectrum and
composition are known from direct observation with detectors
placed in
balloons and earth satellites. However, at higher energies the CR flux
is smaller and more difficult for direct observation. The common view is
that new experiments over wide charge and energy ranges are needed. They
will help to test the existing theoretical concepts and will become a
basis for further studies. Space experiments like NUCLEON have a definite
preference and attract more attention. The special interest for JINR is
the search for a signal of heavy particle production with $M\approx$0.5~TeV,
as expected for the lightest and stable SUSY or WIMP particle.
{\bf Expected main results in 2011:
}
\begin{itemize}
\item Participation in the development of the pilot prototype of the Fresnel mirror
to the small autonomous space platform.
\item Software development and measurements of the pilot Fresnel mirror modules.
\item Participation in production of the TUS on-line programs.
\item Participation in the development of the pilot NUCLEON trigger system to the changed launcher.
\item Development of the MC simulation program for the neutron response for the HERO space detector.
Development of on-line data handling programs. R&D of the HERO
detector prototype and beam tests at SPS CERN.
\item Participation in the long-term tests of the technological prototype of
the NUCLEON trigger system.
\end{itemize}
%%\begin{project}
%%\item \PList{TUS }{L.G.~Tkatchev}{1}{2002}{2011}
%%\item \PList{NUCLEON }{L.G.~Tkatchev}{2}{2005}{2011}
%%\end{project}
\begin{stage}
\item[] \PS{TUS }{L.G.~Tkatchev}{\psinp}
\PL{DLNP}{L.G.~Tkatchev}{L.G.~Tkatchev\\V.M.~Grebenyuk\\D.V.~Naumov\\S.V.~Bektemerova\\S.Yu.~Porokhovoy\\A.V.~Tkachenko\\
F.F.~Grinyuk\\P.A.~Khuraevkin\\Yu.A.~Sevastyanov}
\PL{VBLHEP}{}{A.V.~Skrypnik}
\PL{LIT}{}{S.K.~Slepnev}
\item[] \PS{NUCLEON }{L.G.~Tkatchev}{\psinp}
\PL{DLNP}{L.G.~Tkatchev}{L.G.~Tkatchev\\V.M.~Grebenyuk\\S.Yu.~Porokhovoy\\N.I.~Kalinin\\V.F.~Boreyko
\\Nguen Man Shat\\B.M.~Sabirov
\\A.B.~Sadovsky\\Z.B.~Krumshtein\\A.V.~Tkachenko\\A.A.~Timoshenko\\M.~Slunechka\\V.~Slunechkova\\N.S.~Tolstoy } \PL{VBLHEP}{}{N.V.~Gorbunov}
\PL{LIT}{}{V.N.~Shigaev}
\end{stage}
\begin{intcoop}
\mtab{Czech Republic}{Prague}{IP ASCR}
\mtab{}{}{CU}
\mtab{Japan}{Wako}{RIKEN}
\mtab{Italy}{Trieste}{INFN}
\mtab{Mexico}{Puebla}{BUAP}
%\mtab{Kazakhstan}{Almaty}{PTI MS-NAS RK}
\mtab{Republic of Korea}{Seoul}{EWU}
\mtab{Russia }{Moscow}{SINP MSU}
\mtab{}{Korolev}{RSC "Energia"}
\mtab{}{Samara}{TsSKB-Progress}
\mtab{}{Dubna}{Raduga}
\end{intcoop}
\TN{02--1--1096--2010/2014}{1}{\tsprg}
{Study of Rare Charged Kaon Decays in Experiments\\ at the CERN SPS}
{V.D.~Kekelidze}
\TLD{Yu.K.~Potrebenikov}
\TC{Belarus, Belgium, Bulgaria, Canada, CERN, Germany, Mexico, Romania, Russia, Switzerland, United Kingdom, USA.}
\TA Realization of the NA62 Project allows to clarify CH--violation problem, to measure precisely ultra
rare charged kaon decay to charged pion and two neutrinos, to carried out a search for supersymmetric
particles and their partners with a goal to observe a physics beyond the Standard Model. In addition
precise characteristics of rate kaon and hyperon decays will be measured. A high resolution magnetic
spectrometer on a base of straw drift tubes working in vacuum will be designed and constructed on a stage
of preparation of the experiment. Software for simulation, data processing and analysis will be developed.
{\bf Expected main results in 2011:
}
\begin{itemize}
\item An analysis of the experimental data recorded in 2010 by the prototypes of the straw
detector will be completed.
\item Mass production of straw tubes will be continued.
\item Two modules of the the straw detector will be produced and delivered to CERN.
\item Software for the magnetic spectrometer simulation and for a simulation of full set--up will be development;
system for detector calibration and event reconstruction will be upgrade; common software of the experi-\\ment will
be development.
\item Participation in tests of straw detector elements in LHEP and CERN and on the particle beams.
\end{itemize}
%%\begin{project}
%%\item \PList{NA62}{V.D.~Kekelidze}{1}{2010}{2012}
%%\end{project}
\begin{stage}
\item \PS{NA62, SPS CERN}{V.D.~Kekelidze}{\pstt\\ \psmod}
\PL{VBLHEP}{}{Yu.K.~Potrebenikov + 9 pers.\\ S.A.~Movchan + 5 pers.}
\PL{DLNP}{}{N.A.~Kuchinsky + 2 pers.}
\end{stage}
\begin{intcoop}
\mtab{Belarus}{Minsk}{NC PHEP BSU}
\mtab{Belgium}{Louvain-la-Neuve}{UCL}
\mtab{Bulgaria}{Sofia}{SU}
\mtab{}{}{INRNE BAS}
\mtab{}{Plovdiv}{PU}
\mtab{CERN}{Geneva}{}
\mtab{Canada}{Vancouver}{TRIUMF}
\mtab{Germany}{Mainz}{JGU}
\mtab{Italy}{Florence}{INFN}
\mtab{}{Ferrara}{INFN}
\mtab{}{Frascati}{INFN LNF}
\mtab{}{Perugia}{INFN}
\mtab{}{Pisa}{INFN}
\mtab{}{Rome}{INFN}
\mtab{}{}{Univ. "Tor Vergata"}
\mtab{}{Turin}{INFN}
\mtab{Mexico}{San Luis Potosi}{UASLP}
\mtab{Romania}{Bucharest}{IFIN-HH}
\mtab{Russia}{Protvino}{IHEP}
\mtab{}{Troitsk}{INR RAS}
\mtab{Switzerland}{Bern}{Uni Bern}
\mtab{United Kingdom}{Birmingham}{Univ.}
\mtab{}{Edinburgh}{Univ.}
\mtab{USA}{Chicago, IL}{UChicago}
\mtab{}{Fairfax, VA }{GMU}
\mtab{}{Menlo Park, CA }{SLAC}
\mtab{}{Merced, CA}{UC Merced}
\mtab{}{Evanston, IL}{NU}
\end{intcoop}
\TN{02--0--1083--2009/2013}{1}{\tsprg}
{CMS. Compact Muon Solenoid at the LHC}
{A.V.~Zarubin }
%%\PLDDD{I.A.~Golutvin}
\TC{ Armenia, Austria, Belarus, Belgium, Brazil, Bulgaria, CERN, China, Croatia, Cyprus, Estonia, Finland, France,
Georgia, Germany, Greece, Hungary, India, Iran, Italy, Mexico, New Zealand, Pakistan, Poland, Republic of Korea, Russia,
Serbia, Slovak Republic, Bratislava, Spain, Switzerland, Taiwan, Turkey, Ukraine, United Kingdom, USA, Uzbekistan.}
\TA The CMS Collaboration has constructed a general--purpose detector to
be operational at the start--up of the Large Hadron Collider
(LHC/CERN) to exploit its full discovery potential. Study of fundamental properties of the matter in Super High Energy
proton--proton and nucleus--nucleaus interactions.
The major activities of JINR are focused on the following directions:
- forward calorimetry, including endcap hadron, and preshower detector;
- forward muon stations with cathode strip chambers;
- development of Physics program to test SM and BSM.
{\bf Expected main results in 2011:
}
\begin{itemize}
\item Start up, maintenance, and operation of forward hadron calorimetry and ME1/1
muon station in experime\-n\-tal cavern at low luminosity.
\item Technical support of the CMS, LHC.
\item CMS start up in LHC run, data taking and data quality monitoring.
\item Processing and analysis of experimental data, development and improvement of muon
and jet reconstruc\-tion algorithms.
\item Development of software for GRID--based distributed system for data processing and
analysis. Data transmission from CERN to JINR.
\end{itemize}
%%\begin{project}
%%\item \PList{CMS}{A.V.~Zarubin \\I.A.~Golutvin }{1}{2010}{2014}
%%\end{project}
\begin{stage}
\item \PS{Forward calorimetry}{A.V.~Zarubin }{\pspl\\ \pspg\\ \psdt}
\PL{VBLHEP}{}{I.A.~Golutvin\\P.D.~Bunin\\A.G.~Volodko + 1 pers.\\Yu.V.~Ershov + 1 pers.
\\N.I.~Zamyatin + 3 pers.
\\ V.D.~Kalagin\\A.Yu.~Kamenev\\A.M.~Kurenkov + 2 pers.
\\P.V.~Moisenz + 2 pers.\\V.A.~Smirnov\\A.I.~Malakhov + 2 pers.}
\item \PS{Forward muon station\\ ME1/1}{V.Yu.~Karjavin}{\pspl\\ \pspg\\ \psdt}
\PL{VBLHEP}{}{S.E.~Vasiliev\\A.O.~Golunov\\
I.A.~Golutvin \\N.V.~Gorbunov + 2 pers.\\Yu.V.~Ershov\\
A.V.~Zarubin\\A.Yu.~Kamenev\\A.M.~Kurenkov + 2 pers.\\A.M.~Makankin
\\P.V.~Moisenz + 1 pers.\\V.V.~Perelygin + 2 pers.\\D.A.~Smolin}
\item \PS{Technical support of the CMS, LHC}{I.A.~Golitvin\\A.M.~Kurenkov}{\psinp}
\PL{VBLHEP}{}{A.M.~Kurenkov + 8 pers.\\Yu.V.~Ershov + 1 pers.\\S.E.~Vasiliev + 1 pers.\\A.I.~Malakhov + 2 pers.}
\item \PS{Reserch physics programme\\with the CMS Detector}{S.V.~Shmatov\\
I.A.~Golutvin}{\psinp}
\PL{VBLHEP}{}{I.M.~Gramenitsky\\I.I.~Belotelov\\P.D.~Bunin\\A.V.~Zarubin\\A.Yu.~Kamenev\\V.F.~Konoplyannikov + 1 pers.
\\A.V.~Lanev\\P.V.~Moisenz + 3 pers.\\M.V.~Savina\\A.I.~Malakhov + 3 pers.}
\PL{LIT}{V.V.~Korenkov}{D.A.~Oleynik\\G.A.~Ososkov\\V.V.~Palchik + 4 pers.\\A.Sh.~Petrosyan}
\PL{BLTP}{O.V.~Teryaev\\ G.A.~Kozlov }{A.B.~Arbuzov\\A.V.~Kotikov\\E.A.~Kuraev\\A.V.~Sidorov\\A.V.~Efremov
\\S.G.~Bondarenko\\R.S.~Pasechnik}
\PL{DLNP}{}{P.X.~Khristova + 2 pers.\\M.~Finger + 2 pers.}
\item \PS{Development of software for\\distributed computation, data
\\processing and analysis based\\on GRID--technology }{V.V.~Korenkov }{\psinp}
\PL{LIT}{}{E.G.~Niconov\\V.V.~Mitsyn + 5 pers.\\V.V.~Palchik\\R.N.~Semenov\\E.A.~Tikhonenko
\\I.A.~Filozova}
\PL{VBLHEP}{}{I.I.~Belotelov\\N.V.~Gorbunov\\A.O.~Golunov\\P.V.~Moisenz
\\S.V.~Shmatov}
\end{stage}
\begin{intcoop}
\mtab{Armenia}{Yerevan}{YerPhI}
\mtab{Austria}{Vienna}{HEPHY}
\mtab{Belarus}{Minsk}{NC PHEP BSU}
\mtab{}{}{JIPNR-Sosny NASB}
\mtab{}{Gomel}{GSTU}
\mtab{Belgium}{Louvain-la-Neuve}{UCL}
\mtab{}{Mons}{UMONS}
\mtab{}{Brussels}{ULB}
\mtab{}{}{VUB}
\mtab{}{Antwerp}{UA}
\mtab{Brazil}{Rio de Janeiro, RJ}{CBPF}
\mtab{}{}{UERJ}
\mtab{}{}{UFRJ}
\mtab{}{Sao Paulo, SP}{Unesp}
\mtab{Bulgaria}{Sofia}{SU}
\mtab{}{}{INRNE BAS}
\mtab{CERN }{Geneva}{}
\mtab{China }{Hefei}{USTC}
\mtab{}{Beijing}{IHEP CAS}
\mtab{}{}{PKU}
\mtab{Croatia }{Split}{Univ.}
\mtab{Cyprus }{Nicosia}{UCY}
\mtab{Estonia }{Tallinn}{NICPB}
\mtab{Finland }{Helsinki}{UH}
%\mtab{}{}{HUT}
\mtab{}{}{HIP}
\mtab{}{Jyvaskyla}{UJ}
\mtab{}{Tampere}{TUT}
\mtab{}{Oulu}{UO}
\mtab{France }{Annecy-le-Vieux}{LAPP}
\mtab{}{Saclay}{IRFU}
\mtab{}{Strasbourg}{IPHC}
\mtab{}{Lyon}{IPNL}
\mtab{Georgia }{Tbilisi}{HEPI TSU}
\mtab{}{}{IP}
\mtab{Germany}{Berlin}{HUB}
\mtab{}{Karlsruhe}{KIT}
\mtab{}{Aachen}{RWTH }
\mtab{Greece }{Athens}{NCSR "Demokritos"}
\mtab{}{}{Univ.}
\mtab{}{Ioannina}{UI}
\mtab{Hungary }{Budapest}{KFKI RMKI}
\mtab{}{Debrecen}{Atomki}
\mtab{}{}{Univ.}
\mtab{India }{Mumbai}{BARC}
\mtab{}{}{TIFR }
\mtab{}{Bhubaneshwar}{IOP}
\mtab{}{Chandigarh}{PU}
\mtab{Iran}{Tehran}{IPM}
\mtab{Italy}{Bari}{INFN }
\mtab{}{Bologna}{INFN}
\mtab{}{Catania}{INFN LNS}
\mtab{}{Florence}{INFN}
\mtab{}{Genoa}{INFN}
\mtab{}{Padua}{ INFN}
\mtab{}{Pavia}{ INFN}
\mtab{}{Perugia}{ INFN}
\mtab{}{Pisa}{ INFN}
\mtab{}{Rome}{ INFN}
\mtab{}{Turin}{ INFN}
\mtab{Mexico}{Mexico }{Cinvestav}
\mtab{New Zealand}{Auckland}{Univ.}
\mtab{}{Christchurch}{UC}
\mtab{Pakistan}{Islamabad}{QAU}
\mtab{Poland}{Warsaw}{UW}
\mtab{}{}{SINS}
\mtab{Republic of Korea}{Kwangju}{CNU}
\mtab{}{Naju}{DU}
\mtab{}{Namwon}{SU}
\mtab{}{Seoul}{KU}
\mtab{}{}{Konkuk Univ.}
\mtab{}{}{ SNUE}
\mtab{}{Chongju}{CBNU}
\mtab{Russia}{Moscow}{ITEP}
\mtab{}{}{LPI RAS}
\mtab{}{}{SINP MSU}
\mtab{}{}{NIKIET}
\mtab{}{Gatchina}{PNPI RAS}
\mtab{}{Protvino}{IHEP}
\mtab{}{Snezhinsk}{VNIITF}
\mtab{}{St. Petersburg}{Electron}
\mtab{}{Troitsk}{INR RAS}
\mtab{}{Zhukovsky}{MDB}
\mtab{Serbia }{Belgrade}{INS "VINCA"}
\mtab{Slovak Republic }{Bratislava}{SUT}
\mtab{Spain }{Madrid}{CIEMAT}
\mtab{}{}{UAM}
\mtab{}{Oviedo}{Uniovi}
\mtab{}{Santander}{IFCA}
\mtab{Switzerland }{Zurich}{ETH}
\mtab{}{}{UZH}
\mtab{}{Villigen}{PSI}
\mtab{}{Basel}{Uni Basel}
\mtab{Taiwan}{Taipei}{NTU}
\mtab{}{Chung--Li}{NCU}
\mtab{Turkey }{Adana}{CU}
\mtab{}{Ankara}{METU}
\mtab{Ukraine}{Kharkov}{KFTI NASU}
\mtab{}{}{ISC NASU}
\mtab{}{}{KhNU}
\mtab{United Kingdom }{London}{Imperial College}
\mtab{}{Didcot}{RAL}
\mtab{}{Bristol}{Univ.}
\mtab{USA}{Ames, IA}{ISU}
\mtab{}{Baltimore, MD}{JHU}
\mtab{}{Blacksburg, VA}{Virginia Tech.}
\mtab{}{Boston, MA}{BU}
\mtab{}{}{NU}
\mtab{}{Batavia, IL}{Fermilab}
\mtab{}{Davis, CA}{UCDavis}
\mtab{}{Cambridge, MA}{MIT}
\mtab{}{Chicago, IL}{UIC}
\mtab{}{College Park, MD}{UM}
\mtab{}{Columbus, OH}{OSU}
\mtab{}{Gainesville, FL}{UF}
\mtab{}{Evanston, IL}{NU}
\mtab{}{Houston, TX}{Rice Univ.}
\mtab{}{Iowa City, IA}{UIowa}
\mtab{}{Lincoln, NE}{UNL}
\mtab{}{Livermore, CA}{LLNL}
\mtab{}{Los Alamos, NM}{LANL}
\mtab{}{Los Angeles, CA}{UCLA}
\mtab{}{Lubbock, TX}{TTU}
\mtab{}{Madison, WI}{UW-Madison}
\mtab{}{Minneapolis, MN}{UofM}
\mtab{}{Notre Dame, IN}{ND}
\mtab{}{Oxford, MS}{UM}
\mtab{}{Pasadena, CA}{Caltech}
\mtab{}{Pittsburgh, PA}{Pitt}
\mtab{}{Piscataway, NJ}{Rutgers}
\mtab{}{Princeton, NJ}{PU}
\mtab{}{Riverside, CA}{UCR}
\mtab{}{Rochester, NY}{UR}
\mtab{}{Tallahassee, FL}{FSU}
\mtab{ }{Tuscaloosa, AA}{UA}
\mtab{Uzbekistan}{Tashkent}{INP UAS}
\end{intcoop}
\TN{02--0--1085--2009/2013}{1}{\tsext}
{Study of the Nucleon and Baryon Structure at CERN \\(COMPASS) and DESY (HERMES, H1)}
{A.P.~Nagaytsev }
%%\PLDDD{ I.A.~Savin}
\TC{ Armenia, Belarus, Belgium, Bulgaria, Canada, CERN, Czech Republic, France, Germany, Israel, Italy, Japan,
Netherlands, Poland, Russia, Switzerland, United Kingdom, USA. }
\TA
- Determination of the quark spin, gluon and quark orbital momenta contributions to the nucleon spin.
- Study of spin--dependent structure functions of the proton and neutron, including transversity, and its
kinematical variables dependences.
- Sum rule tests for spin--dependent structure functions of the proton and neutron, QCD tests.
- Pion and kaon polarizabilities measurements
- Search of new bound states of qluons and quarks
- Construction of a hadron calorimeter, a muon system and straw tracking chambers for the COMPASS spectrometer.
- COMPASS software development and support of the CERN program library at JINR.
- Study of inclusive, exclusive and semi--inclusive processes in deep inelastic scattering of muons and electrons
on polarized and unpolarized targets.
- Preparation for measurements of Generalized Parton Distributions and transverse hadron structure in
Drell--Yan processes.
{\bf Expected main results in 2011:
}
\begin{itemize}
\item Participation in data taking in COMPASS spectrometer at CERN.
\item Support of HCAL1 during 2011 run.
\item Support of MW1 during 2011 run.
\item Performance studies of the tracking detectors MWPC, STRAW, W4/5 for COMPASS.
\item Project preparation on measurements of Generalized Parton Distributions and transverse hadron structure in
Drell--Yan processes.
\item Software development and simulation of the various reactions, studying in COMPASS. Analyzing of the COMPASS
data at JINR and publications preparation. Finalizing of the studying of effects of nucleon strange sea and gluon
polarization in the production of $\Lambda$~hyperons.
\item Theoretical studies of spin effects in COMPASS.
\item Measurement of dijet cross section and energy flow in deep--elastic scattering with a leading proton in the final state. Measurement of elastic $\rho$--meson cross section in deep--elastic scattering with a leading proton in the final state.
\end{itemize}
%%
%%\begin{project}
%%\item \PList{COMPASS}{A.P.~Nagaytsev\\I.A.~Savin}{1}{1998}{2013}
%%\end{project}
\begin{stage}
\item[I.] \PS{COMPASS}{A.P.~Nagaytsev}{\psdt\\ \psda\\ \psda}
\item[1.] \PS{Hadron calorimeter}{ I.A.~Savin\\O.P.~Gavrishchuk}{\pspg}
\PL{VBLHEP}{}{O.P.~Gavrishchuk\\G.V.~Meshcheryakov}
\item[2.] \PS{Electromagnetic calorimeter}{A.P.~Nagaytsev\\Z.V.~Krumshtein}{\pspp\\ \pspt}
\PL{VBLHEP}{}{A.P.~Nagaytsev + 4 pers.}
\PL{DLNP}{}{Z.V.~Krumshtein + 5 pers.}
\item[3.] \PS{Muon system}{G.D.~Alekseev}{\pspg}
\PL{DLNP}{}{G.D.~Alekseev + 5 pers.}
\item[4.] \PS{Tracking systems}{ V.D.~Peshekhonov\\G.D.~Alexeev}{\pspg}
\PL{VBLHEP}{}{V.D.~Peshekhonov + 5 pers.\\V.A.~Anosov + 1 pers.}
\PL{DLNP}{}{V.V.Chalyshev + 3 pers.\\G.D.~Alexeev + 5 pers.\\A.A.~Popov}
\item[5.] \PS{Software development.\\ Data analysis}{ E.V.~Zemlyanichkina}{\psinp}
\PL{VBLHEP}{}{I.A.~Savin\\V.Yu.~Alexain\\A.M.~Kotsinyan\\D.V.Peshekhonov\\
G.I.Smirnov\\A.P.~Nagaytsev\\O.M.~Kuznetsov\\N.N.~Vlasov\\Yu.I.~Ivanshin\\A.Yu.~Korzenev\\M.G.~Sapozhnikov
\\N.S.~Rossijskaya\\V.L.~Rapatsky\\A.A.~Antonov\\
A.L.~Gibinski}
\PL{DLNP}{}{A.G.~Olshevsky\\A.V.~Guskov\\Z.V.~Krumshtein}
\PL{LIT}{}{A.M.~Raportirenko\\V.P.~Gerdt\\D.A.~Yanovich}
\item[6.] \PS{ Measurements of generalized\\ parton distributions and\\ transverse spin structure\\
in Drell--Yan processes. Development of new electro-magnetic\\ calorimeter}{A.P.~Nagaytsev\\I.A.~Savin}{\psinp}
\PL{VBLHEP}{}{I.A.~Savin\\O.P.~Gavrishchuk\\
G.V.~Meshcheryakov\\N.N.~Vlasov\\O.M.~Kuznetsov\\A.L.~Gibinski}
\PL{DLNP}{}{A.G.~Olshevskiy + 5 pers.\\A.V.~Guskov\\Z.V.~Krumshtein\\O.Yu.~Shevchenko
\\O.N.~Ivanov}
\PL{LIT}{}{P.V.~Zrelov + 2 pers.}
\PL{BLTP}{}{A.V.~Efremov\\O.V.~Teryaev}
\item[7.] \PS{Preparation of the project\\ on measurement of proton form--factor ratios\\ at 13--15~GeV/c}{A.P.~Nagaytsev
\\I.A.~Savin\\N.M.~Piskunov}{\psda}
\PL{VBLHEP}{}{O.P.~Gavrishchuk\\G.V.~Meshcheryakov}
\item[II.] \PS{HERMES}{ V.G.~Krivokhijine}{\psda}
\PL{VBLHEP}{}{A.P.~Nagaytsev\\G.V.~Meshcheryakov}
\PL{DLNP}{}{O.N.Ivanov\\O.Yu.~Shevchenko}
\item[III.] \PS{H1}{M.N.~Kapishin}{\psda}
\PL{VBLHEP}{}{M.N.~Kapishin + 4 pers.}
\item[IV.] \PS{Theoretical studies}{ A.V.~Efremov}{\psinp}
\PL{BLTP}{}{S.B.~Gerasimov\\A.V.~Kotikov\\A.E.~Dorokhov\\N.I.~Kochelev}
\PL{BLTP}{}{S.B.~Gerasimov\\O.V.~Teryaev\\A.V.~Kotikov\\A.E.~Dorokhov\\N.I.~Kochelev\\A.M.~Sidorov}
\end{stage}
\begin{intcoop}
\mtab{Armenia }{Yerevan}{YerPhI}
\mtab{Belarus}{Minsk}{NC PHEP BSU}
\mtab{Belgium}{Mons}{UMONS}
\mtab{}{Brussels}{ULB}
\mtab{Bulgaria}{Sofia}{INRNE BAS}
\mtab{}{}{SU}
\mtab{Canada}{Vancouver}{TRIUMF}
\mtab{}{Edmonton}{U of A}
\mtab{CERN}{Geneva}{}
\mtab{Czech Republic}{Prague}{CTU}
\mtab{France}{Saclay}{IRFU}
\mtab{Germany}{Bielefeld}{Univ.}
\mtab{}{Bochum}{RUB}
\mtab{}{Bonn}{UniBonn}
\mtab{}{Freiburg}{Univ.}
\mtab{}{Hamburg}{DESY}
\mtab{}{Heidelberg}{MPI K}
\mtab{}{Munich}{LMU}
\mtab{}{}{TUM}
\mtab{}{Mainz}{JGU}
\mtab{}{Erlangen}{Univ.}
\mtab{Israel}{Tel Aviv}{TAU}
\mtab{Italy}{Turin}{INFN}
\mtab{}{Trieste}{INFN}
\mtab{}{Frascati}{INFN LNF}
\mtab{Japan}{Chiba}{Toho Univ.}
\mtab{}{Nagoya}{Nagoya Univ.}
\mtab{}{Osaka}{OCU}
\mtab{}{Sendai}{Tohoku Univ.}
\mtab{}{Tsukuba}{KEK}
\mtab{}{Yamagata}{Yamagata Univ.}
\mtab{Netherlands}{Amsterdam}{ NIKHEF}
\mtab{Poland}{Warsaw}{WUT}
\mtab{Russia}{Moscow}{SINP MSU}
\mtab{}{}{LPI RAS}
\mtab{}{Protvino}{IHEP}
\mtab{}{Gatchina}{PNPI RAS}
\mtab{}{Troitsk}{INR RAS}
\mtab{Switzerland}{Zurich}{UZH}
\mtab{United Kingdom}{Liverpool}{Univ.}
\mtab{USA}{Argonne, IL}{ANL}
\mtab{}{Cambridge, MA}{MIT}
\mtab{}{Boulder, WY}{CU}
\mtab{}{Pasadena, CA}{Caltech}
\end{intcoop}
\TN{02--1--1086--2009/2011}{1}{\tscom}
{Strangeness in Hadronic Matter and Study of Inelastic Reactions Near Kinematical
Borders\\ (Projects HyperNIS, THERMALIZATION)}
{E.A.~Strokovsky\\E.S.~Kokoulina}
\TC{ Belarus, Czech Republic, Germany, Italy, Japan, Russia, Ukraine}
\TA
Strangeness in hadronic matter and study of boundary effects:
a) search of effects of hidden intrinsic polarized sea of strange quarks in nucleon;
b) study of stabilizing effects of strangeness in nuclear matter and properties of the
lightest hypernuclei;
c) search for exotic baryons with positive strangeness;
d) study of multi--particle dynamics in inelastic proton--nucleon interactions
with extremally high multiplicity.
Expected results:
- New experimental data on total and differential cross sections of $\phi$ and $\omega$
production in $pp$ and $np$ interactions at threshold. Study of mechanisms of
the vector meson production in $NN$ interaction at threshold. Data on the OZI--rule
violation; its energy dependence and dependence on isospin of the $NN$ system in the initial
state at nucleon energies near the $\phi$ and $\omega$ production thresholds.
- Data on production cross sections for hyper--fragments of relativistic nuclei.
Data on the lifetimes and binding energies of the lightest hypernuclei
$^4_{\Lambda}{H}, :^3_{\Lambda}{H}, :^6_{\Lambda}{H}$; search for $^6_{\Lambda}{H}$.
Study of the decay channels, including non--mesonic decays of the
$^{10}_{\Lambda}{Be}$ and $^{10}_{\Lambda}{B}$ hypernuclei.
- Upgrade of the vertex detector of the SVD--2 setup (additional tracking plane)
and upgrade of the front--end and data acquisition system; optimizing of the multiplicity trigger. Software
development for reconstruction of high multiplicity events at drift tube tracker and magnetic spectrometer.
- Search and study of production of exotic baryons with positive strangeness
("pentaquarks") in $pp$ and $np$ interactions.
- Construction of the wide acceptance magnetic spectrometer NIS--GIBS with
multi--tracking capability and time--of--flight particle identification system at
the Nuclotron extracted beam.
- Measurements of the partial cross sections of $pp$ interactions at multiplicity
above 20. Study of multiparticle correlations, search for "ring--like" events (gluonic
Cherenkov radiation). Study of multiplicity fluctuations in relativistic Bose-- and
Fermi--gases for Bose--Einstein condensation searching. Search for signals of turbulency of excited hadronic matter.
Development of analytic and Monte--Carlo models for description of high multiplicity
processes where non--perturbative evolution of quark--gluon matter and phase transitions
are taken into account.
{\bf Expected main results in 2011:}
\begin{itemize}
\item Development and modernization of the DAQ and tracking systems of the NIS--GIBS spectrometer. Monte--Carlo
simulation of the reactions under study.
\item Study of the setup characteristics at the extracted deuteron and $^{6,7}{Li}$ beams. Spectrometer
calibrating by binary reactions first physical results.
\item Data taking with the NIS--GIBS spectrometer at the extracted deuteron and
$^{6,7}{Li}$ beams within the hyper--nuclear program.
\item Analysis of data on $\omega$--production in $pp$--interactions at threshold from Wasa--at--COSY
spectrometer; preliminary results.
\item Upgrade of the SVD--2 setup:
a) planned tests of the liquid hydrogen target
and production of its monitoring system;
b) upgrade of the vertex tracker;
c) upgrade of the electronics of the spectrometer
and modernizing of the data acquisition system for the drift tracker;
d) planned
refurbishing of the electromagnetic calorimeter;
e) trigger optimization;
f) development of the software for the drift tracker and magnetic spectrometer.
\item Data taking in the U--70 runs; measurement of the partial $pN$ interaction
cross sections with multiplicity up to 30.
\item Development of the analytic models for multiple particle production.
\end{itemize}
%%\begin{project}
%%\item \PList{HyperNIS}{E.A.~Strokovsky}{1}{2010}{2012}
%%\item \PList{THERMALIZATION}{E.S.~Kokoulina}{2}{2003}{2011}
%%\end{project}
\begin{stage}
\item \PS{NIS}{E.A.~Strokovsky}{\psinp\\ \psdt}
\PL{VBLHEP}{}{R.A.~Salmin + 3 pers.\\M.G.~Sapozhnikov + 1 pers.\\V.P.~Balandin + 2 pers.\\S.N.~Bazylev + 6 pers.
\\P.A.~Rukoyatkin + 4 pers.\\A.A.~Feschenko\\S.N.~Plyashkevich\\I.P.~Yudin + 1 pers.\\A.G.~Litvinenko + 2 pers.
\\J.~Lukstins + 7 pers.\\Yu.T.~Borzunov + 3 pers.\\V.D.~Aksinenko }
\item \PS{GIBS}{J.~Lukstins}{\psinp\\ \psdt}
\PL{VBLHEP}{}{V.D.~Aksinenko + 4 pers.\\E.A.~Strokovsky + 5 pers.}
\PL{DLNP}{}{Yu.A.~Batusov + 2 pers.}
\PL{CEO}{}{A.N.~Parfenov + 2 pers.}
\item \PS{THERMALIZATION}{E.S.~Kokoulina\\V.A.~Nikitin}{\psinp\\ \psda}
\PL{VBLHEP}{}{V.V.~Avdeychikov + 2 pers.\\I.A.~Rufanov + 3 pers.\\V.A.~Nikitin + 6 pers.\\M.V.~Tokarev
\\Yu.P.~Petukhov + 2 pers.\\A.N.~Allev + 3 pers.\\V.I.~Kireev + 5 pers.\\A.I.~Yukaev + 4 pers.}
\PL{BLTP}{}{E.A.~Kuraev + 2 pers.}
\end{stage}
\begin{intcoop}
\mtab{Belarus}{Minsk}{NC PHEP BSU}
\mtab{}{}{JIPNR-Sosny NASB}
\mtab{}{Gomel}{GSTU}
\mtab{Czech Republic}{Prague}{CTU}
\mtab{}{Rez}{NRI}
\mtab{}{}{NPI ASCR}
\mtab{Germany}{Munich}{LMU}
\mtab{}{Julich}{FZJ}
\mtab{Italy}{Kosenza}{UniCal}
\mtab{Japan}{Osaka}{RCNP}
\mtab{Russia}{Moscow}{SINP MSU}
\mtab{}{Protvino}{IHEP}
\mtab{}{Syktyvkar}{DM Komi SC\\UrD RAS}
\mtab{Ukraine}{Kiev}{BITP NASU}
\end{intcoop}
\TN{02--1--1091--2009/2011}{2}{\tsext}
{Investigation of Systems for Identification of Complex Chemical
Substances by Nuclear Physics Methods }
{V.M.~Bystritsky\\ M.G.~Sapozhnikov}
\TC{ Russia}
\TA The main goal is to develop methods for identification
of complex chemical substances by registration of the
gamma-quanta spectra induced by fast neutrons irradiation.
The neutrons are produced in the reaction $d+t \to \alpha+n$.
The $\gamma$-quanta are registered in coincidence with
$\alpha$ particles. For each event the coordinates and the arrival
time of $\alpha$ particles in the alpha-detector are measured as
well as amplitudes and arrival time of $\gamma$ in the gamma-detectors.
This information allows to find the 3D position of the object inside
the interrogated volume. Investigations of different detectors for
$\alpha$ and $\gamma$ registration will be performed.
The data acquisition and data analysis systems will be manufactured.
Simulation of the neutrons and gamma-quanta interactions in the
interrogated volume will be done to optimize the detector.
The prototypes of the detector to identify hidden
substances will be constructed.
{\bf Expected main results in 2011:
}
\begin{itemize}
\item Investigation of multichannel alpha--detector.
\item Construction of the working prototypes of the system with portable
neutron generator.
\item Monte Carlo simulation of the identification algorythms.
\end{itemize}
\begin{stage}
\item \PS{Production of $\alpha$--detector}{N.I.~Zamyatin}{\psinp}
\PL{VBLHEP}{}{N.I.~Zamyatin + 4 pers.}
\item \PS{Production of $\gamma$--detector}{V.M.~Bystritsky}{\psinp}
\PL{DLNP}{}{V.M.~Bystritsky + 3 pers.}
\item \PS{Development of the DAQ}{V.M.~Slepnev}{\psinp}
\PL{VBLHEP}{}{V.M.~Slepnev + 4 pers.}
\item \PS{Data analysis}{M.G.~Sapozhnikov}{\psinp}
\PL{VBLHEP}{}{M.G.~Sapozhnikov + 3 pers.}
\PL{BLTP}{}{V.G.~Kadyshevsky}
\end{stage}
\begin{intcoop}
\mtab{Russia}{Moscow}{VNIIA}
\mtab{}{}{RUSNANO}
\end{intcoop}
\TN{02--1--1093--2009/2012}{2}{\tsprg}
{ Development of High-Precision Straw Detectors}
{V.D.~Peshekhonov }
\TC{ Bulgaria, Germany, Georgia, Poland, Russia.}
\TA Investigation and development of tracking straw detectors with different pressure
of its gas mixture for applica\-tion in high luminosity accelerator experiments and for
application in other fields.
{\bf Expected main results in 2011:
}
\begin{itemize}
\item Development of granulated straws with high pressure of gas mixture.
\item Study of processes in the high pressure straws.
\item Assembling and investigation of the prototype with 2 m. sq. of the sensetive area.
\end{itemize}
\begin{stage}
\item[] \PS{STRAW}{V.D.~Peshekhonov}{\psinp}
\PL{VBLHEP}{}{I.V.~Boguslavsky\\T.~Grigalashvili\\Yu.V.~Gusakov\\G.D.~Kekelidze
\\V.M.~Lysan\\V.V.~Myalkovsky + 3 pers.\\E~Nazieva\\S.S.~Parzhitsky\\K.~Davkov\\V.~Davkov}
\end{stage}
\begin{intcoop}
\mtab{Bulgaria}{Plovdiv}{PU}
\mtab{Germany}{Dresden}{FZD}
\mtab{Georgia}{Tbilisi}{TSU}
\mtab{Poland}{Warsaw}{WUT}
\mtab{Russia}{Moscow}{LPI RAS}
\mtab{}{}{SINP MSU}
\mtab{}{Protvino}{IHEP}
\end{intcoop}