Saint Petersburg State University




НазваниеSaint Petersburg State University
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Research topics

 Theory of atoms and molecules

 Solid state theory

 Quantum electrodynamics of highly charged ions

 Tests of fundamental theories with atomic systems

 Collision theory and dynamics of quantum systems

 Quantum chaos


Selected papers 2007-2010


  1. Volotka A.V., Glazov D.A., Shabaev V.M., Tupitsyn I.I., Plunien G. Screened QED corrections in lithiumlike heavy ions in the presence of magnetic fields. Phys. Rev. Lett. 103 (2009) 033005.

  2. Artemyev A.N., Shabaev V.M., Tupitsyn I.I., Plunien G., Yerokhin V.A. QED calculation of the 2p3/2 - 2p1/2 transition energy in boronlike argon. Phys. Rev. Lett. 98 (2007) 173004.

  3. Labzowsky L., Schedrin G., Solovyev D., Plunien G. Theoretical study of the accuracy limits of optical resonance frequency measurements. Phys. Rev. Lett. 98 (2007) 203003.

  4. Sharipov V., Labzowsky L., Plunien G. Excited States of the Helium-Antihydrogen System. Phys. Rev. Lett. 98 (2007) 103001.

  5. Tupitsyn I.I., Kozhedub Y.S., Shabaev V.M., Deyneka G.B., Hagmann S., Kozhuharov C., Plunien G., Stoehlker Th. Relativistic calculations of the charge-transfer probabilities and cross sections for low-energy collisions of H-like ions with bare nuclei. Phys. Rev. A 82 (2010) 042701.




  1. Goidenko I.A. QED corrections for the valence electron in the heavy and superheavy metal atoms from the 11 and 12 groups. Eur. Phys. J. D 55 (2009) 35.

  2. Abarenkov I.V. Unit cell for a lattice electrostatic potential. Phys. Rev. B 76 (2007) 165127.

  3. Abarenkov I.V., Zagoulaev S.N. Spin structure of the reduced density matrix and spin polarized states. Int. J. Quant. Chem. 108 (2008) 2657.

  4. Zagoulaev S.N. Phenomenon of anti-Bragg magnetic neutron diffraction. Europhysics Letters 91 (2010) 16003.

  5. Trifonov E.D., Zagoulaev S.N. On the Bose-Einstein condensate partition function for an ideal gas. Physics-Uspekhi 53 (2010) 83.

  6. Kazansky A.K., Echenique P.M. One-electron model for the electronic response of metal surfaces to subfemtosecond photoexcitation. Phys. Rev. Lett. 102 (2009) 177401.

  7. Kazansky A.K., Kabachnik N.M., Sazhina I.P. Quantum beats and fine structure in attosecond chronoscopy of strong-field photoionization of atoms. Eur. Phys. Lett. 82 (2008) 13001.

  8. Abramov D.I. Hyperspherical Coulomb spheroidal representation in the Coulomb three-body problem. J. Phys. B 41 (2008) 175201.

  9. Braun P., Mueller S., Haake F. Semiclassical spectral correlator in quasi one-dimensional systems. J. Phys. A: Math. Theor. 41 (2008) 395101.

  10. Gusarov S., Fedorova T.A., Dmitriev Yu.Yu., Kovalenko A. On variational estimates for exchange-correlation interaction obtained within super-CI approach to MCSCF approximation. Int. J. of Quant. Chem. 109 (2009) 1672.

  11. Rebane T.K. Energy bounds for a system of gravitating bosons. Theor. and Math. Phys. 162 (2010) 347.

  12. Telnov D.A., Chu S.I. Effects of electron structure and multi-electron dynamical response on strong-field multiphoton ionization of diatomic molecules with arbitrary orientation: An all-electron time-dependent density-functional-theory approach. Phys. Rev. A 79 (2009) 041401(R).

  13. Telnov D.A., Chu S.I. Above-threshold-ionization spectra from the core region of a time-dependent wave packet: An ab initio time-dependent approach. Phys. Rev. A 79 (2009) 043421.

  14. Syromyatnikov A.V. Collective excitations in a two-dimensional antiferromagnet in a strong magnetic field. Phys. Rev. B 79 (2009) 054413.

  15. Aristov D.N., Bruenger C., Assaad F.F., Kiselev M.N., Weichselbaum A., Capponi S., Alet F. Asymmetric spin-1/2 two-leg ladders: Analytical studies supported by exact diagonalization, DMRG, and Monte Carlo simulations. Phys. Rev. B 82 (2010) 174410.

  16. Aristov D.N., Woelfle P. Conductance through a potential barrier embedded in a Luttinger liquid: Nonuniversal scaling at strong coupling. Phys. Rev. B 80 (2009) 045109.

  17. Shabaev V.M., Volotka A.V., Kozhuharov C., Plunien G., Stoehlker T. Parity- nonconservation effect with the laser-induced 2(3)S(1)-2(1)S(0) transition in heavy heliumlike ions. Phys. Rev. A 81 (2010) 052102.

  18. Shabaev V.M. Quantum electrodynamics of heavy ions and atoms: current status and prospects. Physics-Uspekhi 51 (2008) 1175.

Selected Projects

1. Quantum electrodynamical, electroweak and nuclear structure effects in the theory of atoms, highly charged ions and antiatoms. Prof. L.N. Labzowsky, Grant RFBR 05-02-17483-a, 2005-2007.

2. Theoretical investigation of the fundamental interactions in physics of atoms and multicharged ions.Prof. L.N. Labzowsky, Grant RFBR 08-02-00026-a, 2008-2010.

3. Theoretical investigations of fundamental interactions in atomic physics and astrophysics. Prof. L.N. Labzowsky, Federal Special-purpose Programme "Scientific and science-pedagogical personnel of innovative Russia", Grant No. P1334, 2009-2011.

4. Quantum electrodynamical effects in atomic systems. Prof. V.M. Shabaev, Grant RFBR 04-02-17574-a, 2004-2006.

5. Quantum electrodynamics of heavy ions.Prof. V.M. Shabaev, Grant RFBR 07-02-00126-a, 2007-2009.

6. Tests of fundamental theories in low-energy physics with heavy ions. Prof. V.M. Shabaev, Grant RFBR-DFG 08-02-91967_a, 2008-2009.

7. Quantum electrodynamic theory of the hyperfine structure and the g-factor of highly charged ions. Prof. V.M. Shabaev, Grant RFBR 10-02-00450-a, 2010-2012.

8. Atomic Physics with new Facilities at GSI. Prof. L.N. Labzowsky, Prof. V.M. Shabaev, Grant INTAS-GSI, 06-1000012-8881, 2007-2008.

9. Tests of theories of fundamental interactions in physics of atomic systems. Prof. V.M. Shabaev, Grant No. 2.1.1/1136, the Ministry of Education and Science of Russian Federation: Program for Development of Scientific Potential of High School, 2009-2010.

10. Quantum-chemical investigation of spin-polarized electronic structure of magnetic materials. Prof. I.V. Abarenkov, Grant RFBR, 2009-2011.

11. New Non-empirical Atomic Pseudopotential and it's Application in the Quantum-Chemistry Calculations of Molecules and Crystals. Prof. I.I.Tupitsyn, Grant RFBR 05-03-32585-a, 2005-2007.93.

D
epartment
of High-Energy Physics and Elementary Particles,

T
Professor, D. Sc. M.A.Braun,

Head of the Chair of High Energy Physics and Elementary Particles

he Chair is associated with the Research Laboratory of Nuclear and Elementary Particle Theory.

Academic and Research staff: Prof. M.A.Braun, Head of High Energy Physics and Elementary Particles Chair; Prof. A.A. Andrianov, Head of Nuclear and Elementary Particle Theory Laboratory, Prof. V.A.Andrianov, Prof.N.V. Antonov; Prof. V.A. Franke; Prof. M.V. Ioffe; Prof. L.N.Lipatov, Member-Corr. of RAS; Prof. V.D. Lyakhovsky; Prof. S.N. Manida; Prof Yu.V.Novozhilov; Prof V.Yu.Novozhilov; Prof. Yu.M. Pis’mak; Prof. L.V.Prokhorov; Prof. V.V.Vechernin; Assoc. Prof. G.A.Chernykh; Assoc. Prof. G.A.Feofilov; Assoc. Prof. S.A.Paston; Assoc. Prof.E.V.Prokhvatilov; Assoc. Prof. V.V. Vereshagin; Assoc. Prof. M.I.Viazovsky; Ass. I.V.Fialkowsky; Ass. A.V.Golovnev; Ass. R.S.Kolevatov. Principal researcher D.V.Vassilevich; Senior researcher S.S.Afonin; Senior researcher A.N.Manashov; Senior researcher V.N.Marachevsky; Researcher S.V.Shadchin; Researcher A.N.Starodubtsev.

Theory of elementary particle interactions and quantum field theory

PhD (graduate program) training of specialists in the VAK nomenclature:

01.04.02 – Theoretical Physics

01.04.16– Physics of atomic nucleus and elementary particles


Basic special courses for students


  1. Theory of elementary particles

  2. Quantum electrodynamics

  3. Theory of strong interactions

  4. Quantum chromodynamics

  5. Theory of weak interactions

  6. Quantum theory of gravitation

  7. Theory of nucleus

  8. Group theory methods in quantum field theory

  9. Application of quantum field theory in many-body problems.

  10. Unperturbative quantum chromodynamics

  11. Physics in spaces with extra dimensions

  12. Experimental methods of high-energy physics


Key points of the Master Program

- the only chair in Russia with that name and profile

- training opportunities at universities and research centers in Russia and Western Europe

- the cutting-edge research in the field of modern theoretical physics and high-energy physics

- acquisition of real skills in research and computer modeling

- individual approach to the selection of training courses

- intensive study combined with practical research under supervision of leading specialists

- individual research practices in leading research teams

- active use of computer, multimedia and information technologies in educational process

Research topics

 Quantum field theory and applications

 Elementary particle theory

 Quantum gravity

 Quark structure of strongly interacting particles (hadrons)

 Theory of strong interactions at high-energies

 Physics in spaces with extra dimensions and non-commutative coordinates

 Application of group theory in elementary particle physics

 Supersymmetry with applications to low-dimensional systems.


Selected papers 2007-2010


  1. A.A. Andrianov and D. Espriu - Parity doubling from Weinberg sum rules- Phys. Lett. B, 671 (2009) 275-279;

  2. A.A. Andrianov, F. Cannata, A.Y. Kamenshchik and D. Regoli - Two-field cosmological models and large-scale magnetic fields - J. Cosm. Astropart.Phys.(JCAP), 0810 (2008) 019 (15p.);

  3. A.A. Andrianov and L. Vecchi - On the stability of thick brane worlds nonminimally coupled to gravity - Phys. Rev. D, 77 (2008) 044035 (10p.);

  4. A.A. Andrianov - Dual oscillators and Quantum Pendulums: spectrum and correlators - Phys. Rev. D, 76 (2007) 025003;

  5. N.V.Antonov, V.I.Iglovikov, A.S.Kapustin – Effects of turbulent mixing on the nonequilibrium critical behaviour – Journal of Physics A, 42 (2009) 135001 (19p.);

  6. N.Armesto, M.A.Braun and C.Pajares - "On the long-range correlations in hadron-nucleus scattering" - Phys. Rev. C, 75 (2007) 054902;

  7. S.Bondarenko and M.A.Braun - "Boundary conditions in the QCD nucleus-nucleus scattering problem" - Nucl. Phys. A, 799 (2008) 151-166;

  8. M.A.Braun - "Nucleus-nucleus cross sections and long-range correlations with a local supercritical pomeron" - Nucl. Phys. A, 806 (2008) 230-244;

  9. M.A.Braun and A.N.Tarasov - "Loops in the Reggeon model for hA scattering" - Eur. Phys. J. C, 58 (2008) 383-394;

  10. M.V.Ioffe, D.N.Nishnianidze - "Exact Solvability of Two-Dimensional Real Singular Morse Potential" – Physical Review A, 76 (2007) 052114 (5 p.p.);

  11. M.V.Ioffe, J.Mateos Guilarte, P.A.Valinevich - "A Class of Partially Solvable Two-Dimensional Quantum Models with Periodic Potentials" – Nuclear Physics B, 790 (2008) 414-431;

  12. J.Bartels, L.N.Lipatov and A.S.Vera – BFKL Pomeron, Reggeized gluons, and Bern-Dixon-Smirnov amplitudes - Phys. Rev., D80 (2009) 045002;

  13. J.Bartels, L.N.Lipatov, K.Peters, «The Pomeranchuk singularity and vector boson reggeization in electroweak theory», Nucl. Phys. B, 772, 103 (2007).

  14. V.D.Lyakhovsky – Twist deformations of kappa-Poincare algebra - Reports on Mathematical Physics, 61 (2008) 213-220;

  15. V.Novozhilov, Yu.Novozhilov – Chiral Parametrization of QCD Vector Field in SU(3) - Modern Physics Letters A, 23 (2008) 3285-3297;

  16. M.A.Shpot, H.W.Diehl, Yu.M.Pis’mak – Compatibility of 1/n and epsilon-expansions for critical exponents at m-axial Lifshitz points- J. Phys. A, 41 (2008) 135003 (7pp);

  17. D.Grunewald, E.M.Ilgenfritz, E.V.Prokhvatilov, H.J.Pirner – Formulating Light Cone QCD on the lattice – Physical Review D, 77 (2008) 014512;

  18. K.Semenov-Tian-Shansky, A.Vereshagin, V.Vereshagin – Bootstrap and the physical values of \piN resonance parameters- Physical Review D, 77 (2008) 025028 (20 pages);



  19. D.V.Vassilevich – Divergences in the vacuum energy for frequency-dependent interactions – Physical Review D, 79 (2009) 065016 (11pp);

  20. S.A.Paston and V.A.Franke – Canonical formulation of imbedded gravitation theory equivalent to general relativity of Einstein – Teor. Mat. Fiz., 153 (2007) 271-288;

  21. S.S. Afonin - "Axial coupling from matching constituent quark model to QCD" - Phys. Rev., C77 (2008) 058201;

  22. A.Lambrecht and V.N.Marachevsky - Casimir interaction of dielectric gratings - Phys.Rev.Lett., 101 (2008) 160403;

  23. V.M. Braun, A.N. Manashov and J. Rohrwild – Baryon Operators of Higher Twist in QCD and Nucleon Distribution Amplitudes - Nucl.Phys.B, 807 (2009) 89-137;

  24. I.V.Fialkovsky, V.N.Markov and Yu.M.Pis'mak – “Parity violating cylindrical shell in the framework of QED - J. Phys.A, 41 (2008) 075403;

  25. V.V.Vechernin and R.S.Kolevatov – On correlation of multiplicities and pt in ultrarelativistic ion collisions – Yad. Fiz., 70 (2007) 1846-1857;



Selected Projects


    • Federal Programme «Scientific and Educational Staff of Innovational Russia»

    • 2009-2013 “Methods of QFT for interactions of particles and nuclei”;

    • Programme «The development of Scientific Potential of Higher School»

    • (2009-2010) “Investigation of fundamental interactions by methods of QFT and symmetry theory”;

    • Grant of President of Russia for support of leading scientific Schools 2006-2007

    • “Theoretical study of physical properties of elementary particles and atomic nuclei with high energy, mathematical problems of QFT and their applications”;

    • Grants of Russian Foundation for Basic Researches – 3-4 grants annually.

Department of Statistical Physics,





A
Professor, D. Sc. A.K.Shchekin, Head of Statistical Physics Chair

cademic
and Research staff: Prof. A.K.Shchekin, Head of Statistical Physics Chair; Prof. L.Ts. Adzhemyan; Prof. A.E. Kuchma; Prof. F.M. Kuni; Prof. M.Yu. Nalimov; Prof. V.P.Romanov; Prof. A.Yu. Val’kov; Prof. S.V. Ul’yanov; Principal Res. Prof. V.L. Kuzmin; Principal Res. Prof. V.M. Uzdin; Principal Res. E.V. Aksenova; Assoc. Prof. T.Yu. Novozhilova; Assoc. Prof. M.V. Komarova; Sen. Instructor T.L. Kim; Sen. Res. V.A. Sverdlov; Sen. Res. D.V. Tatyanenko; Ass. Prof. A.A. Lezova.

Profile of the Magister Degree Program “Statistical theory of inhomogeneous systems.

Candidate Degree (graduate program) training of specialists in the VAK nomenclature:

01.04.02 – Theoretical Physics

01.04.07 – Physics of Condensed Matter


Basic special courses for students

  1. Nonequilibrium statistical mechanics

  2. Physical mechanics of continuous media

  3. Theory of critical phenomena

  4. Fundamentals of statistical description of fully developed turbulence

  5. Density functional approach in classical statistical mechanics

  6. Waves and interactions in plasma of solids

  7. Theory of quantum liquids

  8. Collective Phenomena in Solids

  9. Electronic properties of quantum-well systems

  10. Kinetics of first-order phase transitions

  11. Thermodynamics and kinetics of heterogeneous nucleation

  12. Theory of micellization

  13. Statistical theory of optical properties of inhomogeneous media

  14. Theory of liquid crystals

  15. Computing and modeling systems with many particles

  16. Methods of computation of the functional integrals and lattice models



Key points of the Magister Program

- the only chair in Russia with that name and profile

- magister's graduates may work in the areas of creation and modeling of new materials (including micro-and nanoelectronics), optical and X-ray diagnostics of various media

- training opportunities at universities in Russia and Western Europe

- the cutting-edge research in the field of modern theoretical physics and condensed matter physics

- acquisition of real skills in research and computer modeling

- the individual approach to the selection of training courses

- individual research practices in leading research teams

- active use of computer, multimedia and information technologies in educational process


Research topics

 Application of the methods of quantum field theory to statistical physics, critical phenomena

 Thermodynamic and kinetic theory of first order phase transitions theory, polymorphic transformations, and micellization

 Theory of electron properties of low dimensional systems

 Wave scattering and liquid crystals
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