Русская версия
| Oleg G. Romanov | Irina V. Shapochkina | George Krylov |
Фотография

George Krylov

Position:associate professor
Degree:Ph D in Physics
Contacts: :Room 318   Phone 209-51-21     e-mail krylov@bsu.by
Teaching:general course "Programming languages and computer simulations".
special course "Programming languages".
general course "Computer technologies in physical experiment".
general course Simulations of complex systems".
special course Automation of experiment".
special course Variational methods".
general course "Nonlinear physics".
Research:Exactly solvable systems.
Solid state physics, low dimensional systems.
Nonlinear dynamics and self-organization in complex systems
Main papers:1. V.A. Gaysenok, G.G. Krylov, S.V. Sergeev. Dynamic operations of a dye laser with a saturable absorber: pumping anizotropy and orientational relaxation // 1994, Physica D, Vol.72, P.161-165
2. G. Krylov , M. Robnik. On the Green function of linear evolution equations for a region with a boundary // J. Phys., V.A32 (1999) P.1261-1267
3.G. Krylov and M. Robnik. On 1D Schrodinger problems allowing polynomial solutions // J. Phys. V. A33 (2000) P.1-13
4.G. Krylov and M. Robnik. Polynomial families and Schrodinger equation: one example of nonhypergeometric type of correspondence //J. Phys. 2001, A34, 5403-5415
5.Maxim Belov and George Krylov. Transverse electric field control of coherent quantum transport in a nanowire model // Phys. Scr. 89 075804, 2014 (doi:10.1088/0031-8949/89/7/075804)
6. H. V. Grushevskaya, G. G. Krylov. Non-Abelian Majorana-Like Quasi-Excitation in Dirac Materials. // Int. J. Nonlinear Phenomena in Complex Systems, vol. 20, no. 2 (2017), pp. 153 - 169
7. H.V. Grushevskaya, G.G. Krylov, N.G. Krylova, I.V. Lipnevich. Modeling of the behavior and statistical analysis of compressibility in the process of Langmuir monolayer structurization // Journal of Physics: Conference Series Vol. 643(2015) 012015
8. H. V. Grushevskaya and G . G . Krylov. Chapter 9. Electronic Structure and Transport in Graphene: QuasiRelativistic Dirac-Hartree-Fock Self-Consistent Field Approximation In: Graphene Science Handbook: Electrical and Optical Properties. Vol. 3. Eds. M. Aliofkhazraei, N. Ali, W.I. Milne, C.S. Ozkan, S. Mitura, J.L. Gervasoni. (Taylor and Francis Group, CRC Press, USA, UK, 2016). Pages 117-132.
9. H. V. Grushevskaya, G. Krylov. Semimetals with Fermi Velocity Affected by Exchange Interactions: Two Dimensional Majorana Charge Carriers pp.266-283 Halina V. Grushevskaya and George Krylov // J. Nonlin. Phenom. in Complex Sys. Vol. 18, no. 2 (2015), pp. 266-283.
10. H. V. Grushevskaya, G. Krylov.Low frequency conductivity in monolayer graphene model with partial unfolding
of Dirac bands // Int. J. Mod. Phys. - 2016. - Vol. 30. - P. 1642009 (10 pages).
11. H. V. Grushevskaya, G. Krylov. Massless Majorana-Like Charged Carriers in Two-Dimensional Semimetals //// Symmetry 2016, Vol. 8. - P. 60; doi:10.3390/sym8070060