Документ взят из кэша поисковой машины. Адрес оригинального документа : http://theory.sinp.msu.ru/~qfthep04/form/old/index_cp.dat.2001 Дата изменения: Mon Jan 26 12:39:13 2004 Дата индексирования: Tue Oct 2 04:42:54 2012 Кодировка:

Family Name|First Name||Organization||||||||E-mail|| | |||||||
| || |||||||||| | |||||||
FAUSTOV|RUDOLF|male|SCC RAS|professor|Vavilov str.40| Moscow GSP-1|117967|Russia|421 5039||faustov@theory.sinp.msu.su|no| Week B decays to excited D states | |||||||
GALKIN|VLADIMIR|male|SCC RAS|Doctor|VAVILOV STR.40|Moscow GSP-1|117967|Russia|337 5442||vog@srdlan.sinp.msu.ru|no| Week B decays to excited K states | |||||||
Illarionov|Alexei|male|Joint Institute for Nuclear Research|Junior Scientific Researcher|LHE, JINR|Dubna, Moscow region|141980|Russia|(09621)64529, 62025|(09621)65891, 65599|illar@thsun1.jinr.ru||POSSIBLY TO TEST THE MECHANISM OF ELASTIC BACKWARD PROTON-DEUTERON SCATTERING ?" | The elastic backward proton-deuteron scattering is analyzed within a covariant approach based on the invariant expansion of the reaction amplitude. The relativistic invariant equations for all the polarization observables are presented. Within the impulse approximation the relation of the tensor analyzing power $T_{20}$ and the polarization transfer $\kappa_0$ to the $P$-wave components of the deuteron wave function is found. Comparison of the theoretical calculations with the experimental data is presented. Experimental verification of the reaction mechanism by constructing some combinations of different observables is suggested. |||||||
Rochev|Vladimir|male|Institute for High Energy Physics|Principal Scientist, Doctor of Sciences, PhD|142 280 Protvino Moscow region Russia|Protvino|142 280|Russia|(27) 74 49 50|(095)-123 6584|rochev@mx.ihep.su|no|On spontaneous chiral symmetry breaking in quantum electrodynamics | |||||||
Korzhavina|Irina|female|SINP MSU|researcher|irina@npi.msu.su|Moscow|007 095|Russia|939 3568||irina@npi.msu.su|no| | |||||||
Kashkan|Vladimir|male|Institute of Physics National Academy of Sciences of Belarus||Skaryna av., 68|Minsk|220072|Belarus|017 2841020||kashkan@dragon.bas-net.by|no|Monte-Carlo simulation of instanton-induced events at LHC.| |||||||
Okhrimenko|Maxim|male|INR|post graduate|60th October Anniversary Pr., 7-a |Moscow|117312|Russia|1352101|1352268|okhrim@pcbai10.inr.ruhep.ru|no|A theory of thin shells with orbiting constituents. |The selfgravitating spherically symmetric thin shells built of orbiting particles are studied. Two new features are found. It is the minimal possible value for an angular momentum of particles, above which elliptic orbits become possible. And the coexistence of both the wormhole solutions and the elliptic or hyperbolic orbits for the same values of parameters (but different initial condition). Possible applications of this results to astrophysics and quantum black holes are briefly discussed. |26 01 1976|Russia|CP-VII 690186||||
Berezin|Victor|male|Institute for Nuclear Research of the Russian Academy of Sciences|Senior scientist|60th October Anniversary pr., 7-a|Moscow|117312|Russia|135-21-01 (o) 188-00-10 (h)|135-22-68|berezin@ms2.inr.ac.ru|no| On a theory of quantum black holes|We are trying to explain our point of view on what a quantum black hole is. The ideas are based on the previous works by the author and his collaborators where the concrete models of quantum black holes were constructed. It is argued that the main feature of quantum black holes that would allow us to distinguish them from other quantum object is some specific quantum radiation. Such a radiation in the quasiclassical limit is just the Hawking evaporation if the change in the black hole mass due to radiation can be neglected. |13.03.1946|Russian|||||
Martynenko|Alexei|male|Samara State University|Professor Dept. Theoretical Physics Samara State University|Pavlov, 1|Samara|443011|Russia|(8462)345434|(8462)345417|mart@info.ssu.samara.ru|no|O(alpha^7) corrections to bound state energy levels in QED| |||||||
Illarionov|Alexei|male|Joint Institute for Nuclear Research|Junior Scientist Researcher|LHE, JINR|Dubna|141980|Russia|7(09621)64529||illar@thsun1.jinr.ru||POSSIBLE TEST OF THE MECHANISM OF ELASTIC BACKWARD PROTON-DEUTERON SCATTERING |The elastic backward proton-deuteron scattering is analyzed within a covariant approach based on the invariant expansion of the reaction amplitude. The relativistic invariant equations for all the polarization observables are presented. Within the impulse approximation the relation of the tensor analyzing power $T_{20}$ and the polarization transfer $\kappa_0$ to the $P$-wave components of the deuteron wave function is found. Comparison of the theoretical calculations with the experimental data is presented. Experimental verification of the reaction mechanism by constructing some combinations of different observables is suggested.|||||||
Shro|Oleg|male|Samara State University|post-graduate student| 1, Academician Pavlov str.|Samara|443016|Russia|(8462) 345434 |(8462) 345417 |oshro@ssu.samara.ru||LEPTONIC DECAYS OF HEAVY MESONS IN THE INSTANT FORM OF RELATIVISTIC HAMILTONIAN DYNAMICS | |||||||
Lukashevich|Sviatlana|female|Gomel State University|post-graduate student|Theoretical Physics Department, Sovetskay str.,104|Gomel|246699|Belarus|+375-232-578253|+375-232-578111|belousova@gsu.unibel.by|no|Hadronic spin polarizabilities (gyrations) in the relativistic quantum field theory |We analyze polarized Compton scattering which provides information on the structure of hadrons. On the basis of the correspondence principle between the relativistic moving medium electrodynamics and relativistic quantum field theory the covariant Lagrangian of the electromagnetic field interaction with the polarized spin particles have been obtained. This Lagrangian contains four independent covariant spin polarizabilities. These polarizabilities are related to the spin structure of the hadron at low energies and are structure-constants of the Compton scattering amplitude at $\cal{O}(\omega^3)$. The Lagrangian is shown to satisfy the main relativistic quantum field theory requirements and can be used for description of two-photon processes on hadrons. |||||||
PAGLIARONE|CARMINE|male|INFN Pisa |PhD|via N. Bixio, 26|PISA|56100|ITALY|+39 - 0328 - 6164565|+39 - 050-880317|pagliarone@fnal.gov|yes|PHYSICS BEYOND THE SM (an Experimental Overview) | |17/02/1965|ITALIAN|369997H|11-11-2001|ROME|25/08/2001|15/10/2001
Cherednikov|Igor|male|BLTP JINR|Research Associate (Dr)|BLTP JINR|Dubna|141980|Russia|+7(09621)63409|+7(09621)65084|igorch@thsun1.jinr.ru|no|A Role of the RG-Invariance in Casimir Energy Calculations | |||||||
PARASHAR|Neeti|female|Northeastern University|Research Associate (Dr.)|MS 352, Fermilab, P.O. Box 500|Batavia|60510-0500|U.S.A.|1-630-840-2573|1-630-840-8886|neeti@fnal.gov|no| Not yet decided| Not yet decided|09 September, 1969|Indian|B0012463|27 October, 2009|Washington D.C., USA|Do not know yet|Do not know yet
Nesterenko|Alexander|male|Moscow State University, Department of Physics|Postgraduate student|Vorobyiovy Hills|Moscow|119899|Russia|9391290, (221) 34227|(221) 65084|nesterav@thsun1.jinr.ru|no|New Analytic Running Coupling in QCD|(The Abstract is sent by E-mail)|||||||
Kaganovich|Alexander|male|Ben Gurion University|researcher||Beer Sheva|84105|Israel|972-8-6477557|972-8-6472904|alexk@bgumail.bgu.ac.il|yes|SSB of scale invariance and possible resolution of the "family problem" in particle physics. |We study a scale invariant two measures theory where a dilaton field $\phi$ has no explicit potentials. The scale transformations include a translation of a dilaton \phi\rightarrow\phi +const. The theory demonstrates a new mechanism for generation of the exponential potential: in the conformal Einstein frame (CEF), after SSB of scale invariance, the theory develops the exponential potential and, in general, non-linear kinetic term is generated as well. The scale symmetry does not allow the appearance of terms breaking the exponential shape of the potential that solves the problem of the flatness of the scalar field potential in the context of quintessential scenarios. Possibility of the quintessential and halo dark matter solutions is shown. The regime where the fermionic matter dominates (as compared to the dilatonic contribution) is analyzed, that corresponds to the normal laboratory conditions of particle physics. There it is found that starting from a single fermionic field, we obtain exactly three different types of spin 1/2 particles in CEF that appears to suggest a new approach to the family problem of particle physics. It is automatically achieved that for two of them, fermion masses are constants, gravitational equations are canonical and the "fifth force" is absent. For the third type of particles, which may be identified with the top-quark, a four fermionic interaction appears from SSB of scale invariance. (hep-th/0106152) |28/06/1945|israeli|5896561|20/07/2004|Tel-Aviv, Israel|5/09/2001|15/09/2001
Muravyev|Dmitry|male|TF Samarskaya|engineer of computer systems|Avrora str. 140|Samara|443045|Russia|(8462)66-36-25|(8462)38-09-65|muravyev@tfs.ru|no|The projection matrices method and its prospect of development in the S-matrix factorization problem. |The projection matrices method is considered for solving Riemann-Hilbert boundary value problem. The results are reviewed for 2x2 S-matrix. The necessary conditions are generalized for the diagonal and orthogonal parts of NxN S-matrix. The mathematical example is demonstrated for Jost-matrix. |||||||
GRUWE|Magali|female|CERN|Doctor|CERN|Geneve - 23|CH-1211|Switzerland|+41.22.7671258|+41.22.7679330|magali.gruwe@cern.ch|no|Search for the Higgs bosons and SUSY at LEP| |02/12/1968|Belgian|EB 840482|03/10/2005|Geneva, Switzerland|05/09/2001|13/09/2001
kotikov|Anatoly|male|JINR|Leading Researcher|JINR, Lab. of Theor. Physics|Dubna (Moscow region)|141980|Russia|(7-09621) 64-413|(7-09621) 65-084|kotikov@thsun1.jinr.ru|no|The contribution of off-shell gluons to the structure functions $F_2^c$ and $F_L^c and the unintegrated gluon distributions |The perturbative parts of the structure functions $F_2^c$ and $F_L^c$ for a gluon target having nonzero transverse momentum squared, have been calculated at order $\alpha _s$. The results of the double convolution (with respect to the Bjorken variable $x_B$ and the transverse momentum ) of the perturbative part and the unintegrated gluon densities have been compared with HERA experimental data for $F_2^c$. The contribution from $F_L^c$ structure function ranges $10\div30\%$ of that of $F_2^c$ at the kinematical range of HERA experiments. |||||||
Dolgopolov|Mikhail|male|Samara State University|lecturer|ak. Pavlov, 1|Samara|443011|Russia|(846-2)34-54-34|(846-2)34-54-17|dolg@ssu.samara.ru|no|MSSM neutral CP even Higgs bosons interactions at high energies | |16.02.1968.|Russia|36-99 167496|||5 September|12 September
Shaparau|Valery|male|Institute of Physics||F.Skoryna av., 68|Minsk|220072|Belarus|(375-17) 2841020||shaporov@dragon.bas-net.by|no|Factorial and cumulant moments of the squeezed gluon states. |We study behaviour of the factorial and cumulant moments for squeezed gluon states which appear at the non-perturbative stage of the QCD jet evolution. |||||||
Saleev|Vladimir|male|Samara State University|Professor|ak. Pavlov, 1|Samara|443011|Russia|842-2-345434|846-2-345417|saleev@ssu.samara.ru|| | |||||||
Pakhomova|Olga|female|Samara State University|Post graduate|ak. Pavlov, 1|Samara|443011|Russia|842-2-345434|846-2-345417|pakhomova@ssu.samara.ru|no|Bc-meson decays into orbitally excited charmonium states | |||||||
Krutov|Alexander|male|Samara State University|Assistant Professor|443011, Samara, Ac.Pavlov St.,1, Samara State University, Physics Department|Samara|443011|Russia|(846-2)345434|(846-2)345417|krutov@ssu.samara.ru|no|A.F.Krutov, V.E.Troitsky, "Relativistic description of the new results on elastic eD-scattering in Jefferson Lab" | |||||||
Troitsky|Vadim|male|Scobeltsyn Institute of Nuclear Physics|||Moscow||Russia|||troitsky@theory.sinp.msu.ru|no|A.F.Krutov, V.E.Troitsky, "Relativistic description of the new results on elastic eD-scattering in Jefferson Lab" | |||||||
Vorontsova|Elena|female|Tver State University||Tver, Sadovy st.,35,170002|Tver|0822|Russia |||a000161@tversu.ru|no|Title of the report and Abstract will be submitted later( before to 1 August). I need in financial support. | |||||||
Alekhin|Sergey|male|IHEP|sci. researcher|Pobeda, 1|Protvino, Moscow region |142281|Russia||(0967) 74 49 37|alekhin@mx.ihep.su|no| The NNLO QCD PDFs | |||||||
Ginzburg|Ilya|male|Sobolev Institute of Mathematics|Prof|Prosp. ac. Koptyug, 4|Novosibirsk|630090|Moscow|(3832)332487|(3832)332598|ginzburg@math.nsc.ru|no| 1) CHARGE ASYMMETRY IN ep, \gamma p, e\gamma, \gamma\gamma COLLISIONS. 2) TWO DOUBLET HIGGS MODEL, SM-LIKE SCENARIO AND RESOLVING OF MODELS AT PHOTON COLLIDERS.| ||||||8.09 (evening)|13.09
Vychugin|Mikhail|male|Sobolev Institute of Mathematica|bachelor|Prosp. ac . Koptug. 4|Novosibirsk|630090|Russia|(3832)332487|(3832)332598|vychugin@mail.ru|no|Distinguish SM and 2HDM in process e\gamma \to eh. | ||||||5.08|6.08
Mokhov|Sergei|male|National Taras Shevchenko University of Kiev|a graduate student|Kiev-191, post box 34|Kiev|03191|Ukraine|(38044) 266-91-22||mokhov@mail.univ.kiev.ua|no| | |||||||
Khruschev|Viatcheslav|male|Institute of the Physics of the Earth|Senior Researcher|B. Gruzinskaya, 10|Moscow D-242, GSP-5|123995|Russia|254-93-95|255-60-40|khru@uipe-ras.scgis.ru|no|The universality of confining potential and the running of the quasi-Coulombic potential strength in the independent-quark model | |||||||
Azimov|Yakov|male|Petersburg Nuclear Physics Institute|Leading scientist (Professor)|PNPI|Gatchina , Leningrad district|188300|Russia|(81271)-46096 (office)|(81271)-31963|azimov@thd.pnpi.spb.ru , azimov@pa1400.spb.edu|no|Regretfully, I cannot present a talk | ||||||5.09.2001|12.09.2001
Ivanov|Mikhail|male|Joint Institute for Nuclear Research|scientific researcher (professor)||Dubna|141980||||ivanovm@thsun1.jinr.ru|no|Relativistic description of double heavy hadrons | |||||||
Kiselev|Valeri|male|IHEP|||Protvino|142280|Russia|(227)-713780|(227)-742824|kiselev@th1.ihep.su|no| "Leptonic constants of heavy quarkonia in potential approach of NRQCD" | We consider a general scheme for calculating the leptonic constant of heavy quarkonium $\bar Q Q$ in the framework of nonrelativistic quantum chromodynamics, NRQCD, operating as the effective theory of nonrelativistic heavy quarks. We explore the approach of statitic potential in QCD, which takes into account both the evolution of effective charge in the three-loop approximation and the linearly raising potential term, which provides the quark confinement. The leptonic constants of $\bar b b $ and $\bar c c$ systems are evaluated by making use of two-loop anomalous dimension for the current of nonrelativistic quarks, where the factor for the normalization of matrix element is introduced in order to preserve the renormalization group invariance of estimates. |||||||
Norton|Peter|male|Rutherford Appleton Laboratory|Dr|Chilton|Didcot|Oxon OX11 0QX|United Kingdom|(44) 1235 445486|(44) 1235 446733|P.R.Norton@rl.ac.uk|no|Atlas status and physics potential. | |21/05/1945|British|013963419|19/07/2004|London, UK|5th September 2001|12th September 2001
CURTIL|Chrisitan|male|CPPM||"nouveau parc verdillon" -bat A1- 79, Bd ICARD|Marseille|13010|France||04.91.82.72.99|curtil@cppm.in2p3.fr|no| | |14-07-1973|ARLES|99HF05434|18-05-2004|Marseille - FRANCE -|05-09-2001|13-09-2001
Jenkovszky |Laszlo|male|Bogolyubov ITP|Leading sc. researcher |BITP|Kiev|03143|Ukraine|380 44 2669123|380 44 2665998|jenk@gluk.org|no|Parton-hadron and reggeon- resonance duality|An exlicite model unifying parton-hadron and resonance- reggeon duality is constracted and tested experimentally. |||||Not needed|Sept. 7|Sept 12
Silenko|Alexander|male|Institute of Nuclear Problems|Doctor|Dr. A.J. Silenko, Institute of Nuclear Problems, Belarusian State University, 11 Bobruiskaya str., Minsk 220080, Belarus|Minsk|220080|Belarus|(017) 2264220|(017) 2265124|silenko@inp.minsk.by|no|Description of Spin-1 Particles in Electromagnetic Field |The Hamiltonian in the Foldy-Wouthuysen (FW) representation, describing relativistic spin-1 particles in an electromagnetic field, is obtained. The Hamiltonian in this representation is diagonal by two spinors. Method of the FW transformation is similar to the well-known one for free spin-1/2 particles. Distinct feature of the proposed method is the account of both interaction with external fields and pseudo-Hermitian cha\-rac\-ter of the Hamiltonian. An initial equation is the Proca one with account of an anomalous magnetic moment, reduced to the generalized Sakata-Taketani equation. The FW transformation is performed with account of terms, proportional to potentials and strengths of external field. The calculation of the Hamiltonian in the FW representation allows to verify the spin-1 particle theory. A correct theory must lead to the Bargmann-Michel-Telegdi (BMT) equation for spin motion. The diagonalized relativistic wave equations derived in previous works do not allow to obtain the spin motion equation similar to the BMT one. However, the commutation of the calculated Hamiltonian with polarization operator yields the spin motion equation, which agrees with the BMT equation. This agreement shows that the spin-1 particle theory is correct at least in the case when the electromagnetic field is not extremely strong. |01.12.1950|Belarus|MP0120144|01.12.2050|Visa is not necessary|05 September|12 September
Mauser|Marcus|male|Johannes Gutenberg University|Doctor|Staudinger Weg 7|Mainz|55099|Germany|++49-6131-39-23387|++49-6131-39-24611|mauser@thep.physik.uni-mainz.de|no|Polarized Top Decay into Charged Higgs t(\uparrow) \rightarrow H^+ + b at O(\alpha_s)|The O(\alpha_s) radiative correction to the polarized top quark t(\uparrow) + H^+ + b is determined. The new feature of the calculation is that the correction to the real gluon emission of the polarized top quark is determined. |01.01.1969|German|2173159224|29.05.2010|Bonn, Germany|05.09.2001|12.09.2001
Anchishkin|Dmitry|male|BITP|Senior Research Fellow|Metrologichna str. 14-B|Kiev|03143|UKRAINE|(38 044)266-9124|(38 044)266-5998|anch@bitp.kiev.ua|yes| INTERCEPT LAMBDA BEHAVIOR IN TWO-BOSON CORRELATIONS | An approach has been developed which enables effectively describe the observed deviation of the intercept lambda from unity in the two-particle correlation function in relativistic heavy-ion collisions. The approach exploits QFT of q-bosons and the related q-deformed commutation relations. In effect, the intercept lambda is connected with deformation parameter q. For a fixed value of q, the model predicts specific dependence of lambda on the mean momentum of two identical bosons. For pions this dependence is in a good greement with recent experimental data obtained at RHIC. ||Ukraine||||September 5, 2001|September 12, 2001
Mensky|Michael|male|Lebedev Physical Institute|Leading Researcher|Leninskii prosp. 53|Moscow |117924|Russia|1326219, temporarily (+49-30) 314-23198 )|1357880, temporarily (+49-30) 314-21130|mensky@sci.lebedev.ru|no| | |December 13, 1939|Russia||||September 6|September 12
Gavrilik|Alexandre|male|BITP|Senior Research Fellow|Metrologichna Str. 14-b|Kiev|03143|Ukraine|38(044) 266-9134|38(044) 266-5998|omgavr@bitp.kiev.ua|no|Quantum groups, hadron masses, and the Cabibbo mixing|Use of q-deformed (quantum) analogs of Lie algebras of flavor symmetry groups SU(n) proves its efficiency in describing static properties of hadrons. With their help we derive new mass sum rules for mesons 1^- and baryons (1/2)^+, (3/2)^+ of improved accuracy with regard to mass relations known before. The new mass sum rules effectively take into account highly nonlinear (nonpolynomial) SU(3)-breaking effects in baryon masses. Among other nontrivial implications are: the possibility (i) to label flavors topologically - by knot invariants or winding number; (ii) to link the realistic value of deformation parameter q with the Cabibbo angle \theta_C and thus to suggest the exact value \pi/14 for the latter; (iii) to express \theta_C and whence the quark mass ratio m_d/m_s in terms of baryon masses. Possible origin of the Cabibbo mixing in noncommutativity of some extra dimensions is briefly discussed. ||Ukraine||||Sept. 05, 2001|Sept. 12, 2001
Smolyakov|Mikhail|male|Moscow State University|Student|Sireneviy bulvar, 64/31, apt.83|Moscow|105484|Russia|(095) 461-30-92||nick@smolyakov.msk.ru|no|Report will be presented with E.E.Boos, Yu.A.Kubyshin and I.P.Volobuev. | |||||||
Cole|Joanne|female|University of Bristol|Dr|ZEUS/F1,DESY,Notkestrasse 85|Hamburg|22607|Germany|+49 40 8998 2609|+49 40 8998 3092|coleje@mail.desy.de|no|Low-x Physics at HERA | |29/05/1973|British|022142048|16/04/06|Hamburg, Germany|05/09/2001|12/09/2001
Sutton|Mark|male|University of Oxford|Dr|ZEUS UK, DESY, Notkestrasse 85|Hamburg|22607|Germany|+49 40 8998 3133|+49 40 8998 3092|sutt@mail.desy.de|yes|alpha_s and the proton gluon distribution at HERA| |17-12-1968|British|017188732|3 April 2005|Am Feenteich 20, 22085 Hamburg, Germany|5-9-2001|12-9-2001
Shnir|Yasha|male|University of Cologne|dr|Zuelpicher Str. 77 |Cologne|D-50937|Germany|+49 221 470 5159 |+49 221 470 5159|shnir@thp.Uni-Koeln.de||Color-Flavor transformation for the special unitary group and application to Lattice gauge theory |The color-flavor transformation is applied in the context of SU(N) group to construct the QCD effective chiral Lagrangian. We describe the transformation of the partition function replacing the intergration over the group by integration over the `flavor' degrees of freedom. Properties of the vacuum and `baryonic' sectors, that appear in this approach, are discussed. The saddle point approximation is implemented to estimate the partition function. We perform the calculations placing the model on the lattice. In this framework we describe the effect of the spontaneous chiral symmetry breaking and estimate the numerical values of the chiral condensate, pion decay constant and pion mass using the only parameter of model, the lattice spacing $a$. |10.09.59|Belarus|||||
Beylin|Vitaly|male|Rostov State University|s.s.c.|Sodruzhestva 37 apt.10|Rostov-on-Don|344103|Russia|(8632)24-88-65||vbey@rambler.ru|no|Low-energy phenomenology of some superstring E(6)-model reduction |Report is devoted to the discussion of some specific way of direct E(6) reduction with the conserving the rank. Some physical consequences of the reduction will be presented also. |||||||
Kuksa|Vladimir|male|Rostov State University|s.s.c.|Zorge 31 apt.153|Rostov-on-Don|344103|Russia|(8632)47-88-29||vbey@rambler.ru|no|Low-energy phenomenology of some superstring E(6)-model reduction (together with V.Beylin) |Report is devoted to the discussion of some specific way of direct E(6) reduction with the conserving the rank. Some physical consequences of the reduction will be presented also. |||||||
Kozyrev|Sergei|male|Semenov Institute of Chemical Physics|Dr (k.f.-m.n.)|Kossygina street 4|Moscow|117334|Russia|(095)7590841|(095)1350555|kozyrev@mi.ras.ru|no|Quantum Boltzmann statstics in interacting systems |Collective operators that describe interaction of generic quantum system with discrete spectrum with a quantum field are investigated. These operators, considered as operators in the entangled Fock space (space generated by action of collective creations on the vacuum) in the stochastic limit satisfy a particular kind of Quantum Boltzmann (or free) commutational relations. This clarifies a general phenomenon of arising of Quantum Boltzmann relations in interacting systems. |14.04.1968|Russia|VI-LU 658163|never|||
Bento|Luis|male|Centro de Fisica Nuclear da Universide de Lisboa|Assistant Professor|||||||lbento@fc.ul.pt|| | |||||||
Giokaris|Nikos|male|University of Athene|Associate Professor|||||||ngiokar@cc.uoa.gr|| | |||||||
Vachon|Brigitte|female|University of Victoria||||||||brigitte.vachon@cern.ch|| | |||||||
Osland|Per|male|University of Bergen|Professor|||||||per.osland@fi.uib.no|| | |||||||
Rosati|Stefano|male|University of Bonn|PhD Student|||||||rosati@physik.uni-bonn.de|| | |||||||
Kurihara|Yoshimaza|male|KEK||||||||kurihara@suchi.kek.jp|| | |||||||
Kaneko|Toshiaki||KEK||||||||kaneko@post.kek.jp|| | |||||||
Kataev|Andrei|male|Institute for Nuclear Research|Dr.|60th October Anniversary Prospect, 7a|Moscow|117312|Russia|135-20-51||kataev@ms2.inr.ac.ru||Renormalons and effects of analytical continuation in scalar correlator |The study of the contributions of renormalons to correlator of scalar quark currents, related to spectral functions of QCD sum rules for light quark masses and to decay of neutral Higgs boson to quark-antiquark pair is presented. Special attention is paid to consideration of resummation of propotional to $\pi$^2-terms effects of analytical continuation from the Euclidean to the Minkowskian region. |||||||
Slavnov|Dmitry||Moscow State University||||||||slavnov@theory.sinp.msu.ru|| | |||||||
Karas|Iryna||Kharkov Institute of Physics||||||||ira@kipt.kharkov.ua|| | |||||||
Chernichenko|Yury||Gomel State Technikal University||||||||chern@ggtu.belpak.gomel.by|| | |||||||
Anipko|Dmitriy||Novosibirsk State University||||||||anipko@tornado.nsk.ru|| | |||||||
Pak|Alexey||Novosibirsk State University||||||||pak@online.sinor.ru|| | |||||||
SCHNEIDER|Mireille|female|DESY|PHD student|schneide@cppm.in2p3.fr|MARSEILLE|13288|FRANCE|+33 4.91.82.72.59|+33 4.91.82.72.00|schneide@cppm.in2p3.fr|no|Searches for new particles at HERA| |28.11.1977 (day/month/year)|CHARTRES|OOPE77227|09.05.2011|MARSEILLE, FRANCE|05.09.2001|12.09.2001
SCHNEIDER|Mireille|female|CPPM|PHD student|schneide@cppm.in2p3.fr|MARSEILLE|13288|FRANCE|+33 4.91.82.72.59|+33 4.91.82.72.00|schneide@cppm.in2p3.fr|no|Searches for new particles at HERA| |28.11.1977 (day/month/year)|CHARTRES|OOPE77227|09.05.2011|MARSEILLE, FRANCE|05.09.2001|12.09.2001
SCHNEIDER|Mireille|female|CPPM|PHD student|schneide@cppm.in2p3.fr|MARSEILLE|13288|FRANCE|+33 4.91.82.72.59|+33 4.91.82.72.00|schneide@cppm.in2p3.fr|no|Searches for new particles at HERA| |28.11.1977 (day/month/year)|CHARTRES|OOPE77227|09.05.2011|MARSEILLE, FRANCE|05.09.2001|12.09.2001
Koshelkin|Andrey||MEPhI||||||||koshelkin@gpd.mephi.msk.su|| | |||||||
Rochev|Vladimir|male|IHEP|Principal Scientist|142 280 Moscow region Protvino IHEP|Protvino|7|Russia|(0967)713575|(095)-230 2337|rochev@mx.ihep.su|no|On dynamical chiral symmetry breaking in quantum electrodynamics |The problem of chiral symmetry breaking in QED is considered for space-time dimensions D=4 and D=6. It is argued for dynamical chiral symmetry breaking in six-dimensional QED at small coupling in contrast with four-dimensional case. |||||||
Tsipenyuk|Dmitry|male|General Physics Institute|senior researcher|Vavilova str.38|Moscow|119991|Russia|(095)-132-81-62|(095)-135-02-70|tsip@kapella.gpi.ru|no|PREDICTION ABOUT POSSIBLE TRANSFORMATION OF AN ELECTROMAGNETIC FIELD IN GRAVITATIONAL FIELD IN A MODEL OF EXTENDED SPACE AND CHECKING EXPERIMENT.| A series of experiments on checking of the prediction about the possibility of gravitational field generation during stopping of the charged massive particles in substance is carried out. As a source of the charged particles the accelerator of electrons was used. The narrow bundle of relativistic electrons (average power of a bundle 450 W, electrons energy about 30 MeV) was directed on a stopping target made from tungsten where electrons deceleration happened. The measurements have shown emerging statistically of authentic deviation of a rotating pendulum, one of which massive cargoes is near to the stopping target, at the moment of the stopping of the relativistic electrons. Changing of direction of a twisting of a pendulum also was fixed at a shifting of stopping target from one end of the pendulum to another. The force magnitude calling a deviation of a pendulum has an upper limit 0,000001 N. |||||||
Levchenko|Boris|male|SINP MSU|Senior Research Fellow||Moscow|119899|Russia|095-9395881||boris@sgi.npi.msu.su|no| Measurement of Phi(1020) meson production in neutral current deep inelastic scattering at HERA (on behalf ZEUS)|First results on inclusive Phi(1020) meson production in NC DIS have been obtained with the ZEUS detector at HERA. Cross sections have been measured in the range of the virtuality of the exchanged photon, 10< Q2 < 100 GeV^2, and in restricted kinematic regions in transverse momentum, pt, and pseudorapidity of the Phi meson. The Monte Carlo models with the strange quark suppression factor as for e+e- annihilation overestimate the measured cross sections. A smaller value of the suppression factor redices the predicted cross sections, but fails to reprodice the shapes of the measured Phi meson cross sections. |||||||
Davydychev|Andrei|male|INP MSU|Senior researcher||Moscow|119899|Russia|||davyd@theory.sinp.msu.ru|no|Hadronic corrections to the muon decay| |||||||
Kapichine|Mikhail|male|Joint Institute for Nuclear Research|Senior scientist (PhD)|Joliot Curi 6|Dubna, Moscow region|141980|Russia|09621-63077|09621-65767|kapishin@sunse.jinr.ru|no|Diffraction at HERA |Recent results on diffraction in deep-inelastic e-p scattering and photo-production reactions from H1 and ZEUS experiments at HERA are presented. Conciderable progress is made in the measurements of inclusive diffractive structure function F_2^D and semi-inclusive diffractive production of leading protons at low and intermediate Q^2. The measurements also cover an odderon search, DIS diffractive D* production, di-jet photo-production, as well as exclusive diffractive production of vector mesons. The results are compared with Regge and QCD motivated models. |5 July 1960|Russia|99 N 1918292|01.04.2002|-|05.09.2001|12.09.2001
Pakhomova|Olga|female|Samara State University|post graduate student|ul. Ak. Pavlov, 1|Samara|443011|Russia|(8462)34-54-34|(8462)34-54-17|pakhomova@ssu.samara.ru|no|Bc meson decays into orbitally excited charmonium states |The two-particle decay processes of Bc meson into P-wave and D-wave charmonia with \pi^+ and \rho^+ mesons in final state in the framework of hard gluon exchange model |||||||
Sachwitz|Martin|male|DESY|Dr.|Platanenallee 6|Zeuthen|D-15738|Rep. Fed. of Germany|+49-33762-77448|+49-33762-77330|sachwitz@ifh.de|no| | |31. Dec. 1949|German|2651040488|18.05.2003|Berlin|06.09.2001|12.09.2001
Slavnov|Andrey||Mathematical Institute RAS||||||||slavnov@mi.ras.ru|| | |||||||
Deminov|Mark||Moscow State University||||||||deminov@mail.ru|| | |||||||
SAGOE|PETER KWASHIE|male|KNUST SCHOOL OF MINES|STUDENT|P.O. BOX MC1563 TAKORADI ,GHANA|TAKORADI|233|GHANA|2333124500||PSAGOE227@ONEBOX.COM|no| | |25-6-1972|GHANAIAN|H0501476|01-05-2010|ACCRA,GHANA|4-9-2001|14-9-2001
SAGOE|PETER KWASHIE|male|KNUST SCHOOL OF MINES|STUDENT|P.O. BOX MC1563 TAKORADI ,GHANA|TAKORADI|233|GHANA|2333124500||PSAGOE227@ONEBOX.COM|no| | |25-6-1972|GHANAIAN|H0501476|01-05-2010|ACCRA,GHANA|4-9-2001|14-9-2001
Vernov|Sergey|male|NPI MSU|||Moscow||Russia|||svernov@theory.sinp.msu.ru|no|Construction of asymptotic solutions for the general H\'enon--Heiles system in nonintegrable cases |Let us consider the {\bf H\'enon--Heiles } Hamiltonian in the general form: $$ H=\frac{1}{2}\bigl(\dot x^2+\dot y^2+\lambda x^2+y^2)+xy^2-\frac{C}{3}y^3, $$ Using numerical integration schemes (Adams and Runge--Kutta), H\'enon and Heiles (1964) have obtained that this system in the case $\lambda=C=1$ has irregular behaviour at high energies. On the other hand there are three known integrable cases of the H\'enon--Heiles system. These integrable cases were isolated by Painlev\'e method. Using the Painlev\'e analysis one can not only define is the system integrable or not, but can find partial asymptotic solution even in nonintegrable case as well. We have constructed the partial solution of the H\'enon--Heiles system with $C=-16/5$. This partial solution is an asymptotic solution and depends on three parameters. |||||||
Dudko|Lev|male|SINP MSU|nauchnyi sotrudnik|Vorobyevy gory, SINP MSU|Moscow|119899|Russia|(095)9395881||dudko@npi.msu.ru|| | |||||||
Golovach|Evgeniy|male|NPI MSU|staff scientist|Golovach E. 119899 NPI MSU Leninskiye Gory, Moscow, Russia|Moscow|119899|Russia|095/9392559|095/9390896|golovach@depni.npi.msu.su|no|INVESTIGATION OF THE HIGH LYING N* EXCITATIONS IN DOUBLE CHARGED PION PRODUCTION BY VIRTUAL PHOTONS|INVESTIGATION OF THE HIGH LYING N* EXCITATIONS IN DOUBLE CHARGED PION PRODUCTION BY VIRTUAL PHOTONS. E.Golovach, V.Mokeev, M.Ripani, M.Anghinolfi, M.Battaglieri, R.Devita, G.Fedotov, B.Ishkhanov, G.Ricco, M.Osipenko, V.Sapunenko, M.Taiuti. Collaboration: NPI MSU(Moscow), INFN (Genova) Universita di Genova. Physical analysis of the experimental data on double charged pion production obtained by CLAS collaboration in E-93-007 experiment (spokespersons V.Burkert, M.Ripani) have been performed. The data were analysed in the frame of the phenomenological model developed by the collaboration NPI MSU(Moscow) - INFN(Genova). The basic goals of this analysis are the extraction of the baryon resonances electromagnetic form factors and search for "missing" baryon states. Analysis showes the form factors for the P13(1720) and S31(1620) states strongly deviate from the SQTM fit of the world data while experimental data are compatible with electromagnetic form factors for other states within SQTM fit uncertainties. It could be an indication on particular structure of this states. The excess of the experimental cross section respect to the evaluation with SQTM fit electromagnetic form factors at W=1.7 GeV could be reproduced either by a pumping of a conventional D13(1700) resonance or by introducing the P13(1715) missing state. The latter choice, however, have some preference in the angular distribution description. |||||||
ZOTOV|Nikolai|male|Skobeltsyn Institute of Nuclear Physics|professor|Skobeltsyn Institute of Nuclear Physics, Lomonosov Moscow State University|Moscow|119899|Russia|939-50-79|939-03-97|zotov@theory.sinp.msu.ru|no| | |||||||
Ossipenko|Mikhail|male|MSU|PhD student|Vorob'evy Gory, MSU, NPI, OEPVAYA|Moscow|119899|Russia|939-25-59||osipenko@depni.npi.msu.su|no| | |||||||
Fedotov|Gleb|male|MSU|PhD student|Vorob'evy Gory, MSU, NPI, OEPVAYA|Moscow|119899|Russia|939-25-58||fedotov@depni.npi.msu.su|no| | |||||||
Ussyukina|Natalia|female|SINP|Doctor|125015 Moscow, Butirskaya st. 86A, 23|Moscow||Russia|9390397|9390397|ussyuk@theory.npi.msu.su|no| | |||||||
Lipatov|Artem|male|Moscow State University|Postgraduated student|Department of Physics, Moscow State University|Moscow|119899|Russia|939-50-79|939-03-97|artem_lipatov@mail.ru|no|Heavy quark production in the semihard QCD approach at TEVATRON and the unintegrated gluon distribution. (in collaboration with V.A. Saleev and N.P. Zotov)|Processes of heavy quark production in $p\bar p$-collisions at high energies are considered using the semihard ($k_T$ factorization) QCD approach with emphasis on the BFKL dynamics of gluon distributions. We investigate the dependences of total cross-section of heavy quark production and also the $p_T$ distribution (presented in the form of integrated cross-sections) on different forms of the unintegrated gluon distributions. The theoretical results are compared with recent TEVATRON data on $b$-flavored production.|||||||
Blyth|Simon|male|Carnegie Mellon University|Dr|CERN Div EP/LE, J21210|Geneva 23|CH1211|SWITZERLAND|41 22 767 5150|41 22 782 8923|simon.blyth@cern.ch|yes|LEP results |Highlights from LEP concentrating on properties of the gauge and scalar bosons |17/02/69|British|740073847|29/01/2008|Geneva, Switzerland|5th Sept|12th (from Russia approx 23rd) Sept)
Ilyichev|Alexander|male|NC PHEP|Researcher|Bogdanovich Str., 153|Minsk|220040|Belarus|232-60-34|232-60-75|ily@hep.by|no|Next-to-leading quark mass effects in longitudinal polarized DIS |The method originally developed for the exact calculations in QED theory is applied for the calculation NLO quark mass effects in longitudinal polarized DIS. QCD corrections to the polarized structure functions $g_1 $ and its first moment are obtained. Different interpretations of the NLO effects appearing from the finite quark mass are discussed. |||||||
ARBUZOV|BORIS|male|SINP MSU|professor|Vorob'evy gory, MSU, SINP|MOSCOW|119899|Russian Federation|9392875|9390397|arbuzov@theory.sinp.msu.ru|no|1. Composite Higgs in a Dynamically Broken Electroweak Theory. 2. Muon g-2 Anomaly and Extra Interactions of the Composite Higgs in the Dynamically Broken Electroweak Theory. |1. In the framework of N.N. Bogoliubov quasi-averages method we consider the electroweak theory without initial Higgs scalars and one massless coloured quark doublet. The quasi-averages method leads to a non-trivial solution for effective four-fermion interaction acting in the low momentum region, restricted by a cut-off \Lambda. This interaction gives. tachyon doublet (and anti-doublet), consisting of t and b quarks. Thus we obtain effective Higgs scalars, which leads to usual symmetry breaking and nonzero masses of W, Z, t, H (the surviving scalar Higgs). The cut-off is connected with W mass and it is equal to 3514 GeV. The Higgs mass is obtained to be 117 \pm 7 Gev, that agrees with recent indication for 115 GeV Higgs. Some other effects of the approach is considered. 2. The theory, developed in the first talk is applied to the problem of muon g-2 anomaly, wich is now intensively discussed. Quasi-averages method again leads to a non-trivial solution for an interaction of composite Higgs particle with gauge fields Z, A, W. This non-trivial solution gives due to the simpliest loop diagram the result for new contribution to the muon (g-2)/2 result \delta (g-2)/2 = \pm 50 10^-10 to be compared with experimental data (46 \pm 16) 10 ^-10. Thus we get excelent agreement with the well-known indications. The new HZA interaction is shown to have no contradictions to the existing data (mostly of L3). New effects in H-decays and its production processes are calculated. For example, process e^+,e^- -> H,A with subsequent decay H -> A,A is of great interest. |||||||