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Polyakov, Sergey Vladimirovich
Statistics Math-Net.Ru
Total publications: 61
Scientific articles: 60

Number of views:
This page:2691
Abstract pages:19691
Full texts:7117
References:1911
Senior Researcher
Doctor of physico-mathematical sciences (2011)
E-mail:
Website: https://www.imamod.ru

https://www.mathnet.ru/eng/person25339
List of publications on Google Scholar
List of publications on ZentralBlatt
https://mathscinet.ams.org/mathscinet/MRAuthorID/261402
https://orcid.org/0000-0003-1859-9034

Publications in Math-Net.Ru Citations
2024
1. R. M. Uzyanbaev, Yu. O. Bobreneva, Yu. A. Poveschenko, V. O. Podryga, S. V. Polyakov, I. M. Gubaydullin, “Numerical modeling of piezoconductive processes in a two-dimensional formulation for a fractured-pore type reservoir”, Keldysh Institute preprints, 2024, 035, 17 pp.  mathnet
2. S. V. Polyakov, V. O. Podryga, “On one boundary model in problems of gas flow around solids”, Matem. Mod., 36:3 (2024),  147–161  mathnet
3. Yu. O. Bobreneva, Yu. A. Poveschenko, V. O. Podryga, S. V. Polyakov, R. M. Uzyanbaev, K. F. Koledina, P. I. Rahimli, “Numerical method for calculating heat and mass transfer of two-phase fluid in fractured-porous reservoir”, Num. Meth. Prog., 25:1 (2024),  33–46  mathnet
2023
4. T. A. Kudryashova, E. A. Galstyan, S. V. Polyakov, N. I. Tarasov, “Computer modeling of electron emission processes in strong electromagnetic fields”, Keldysh Institute preprints, 2023, 072, 16 pp.  mathnet
5. T. A. Kudryashova, S. V. Polyakov, N. I. Tarasov, “Numerical analysis of water purification processes in closed loop systems”, Matem. Mod., 35:3 (2023),  59–78  mathnet  mathscinet; Math. Models Comput. Simul., 15:5 (2023), 817–831
6. N. I. Tarasov, V. O. Podryga, S. V. Polyakov, “Web laboratory for supercomputer multiscale modeling of spraying problems”, Num. Meth. Prog., 24:4 (2023),  463–484  mathnet
7. T. A. Kudryashova, S. V. Polyakov, N. I. Tarasov, “Simulation of emission processes in strong electromagnetic fields”, Zh. Vychisl. Mat. Mat. Fiz., 63:8 (2023),  1354–1366  mathnet  elib; Comput. Math. Math. Phys., 63:8 (2023), 1486–1498 1
2022
8. S. V. Polyakov, V. O. Podryga, “A study of nonlinear processes at the interface between gas flow and the metal wall of a microchannel”, Computer Research and Modeling, 14:4 (2022),  781–794  mathnet 3
9. N. I. Tarasov, T. A. Kudryashova, S. V. Polyakov, “Modeling formation and removal of limescale in water treatment systems”, Dokl. RAN. Math. Inf. Proc. Upr., 505 (2022),  79–85  mathnet  elib; Dokl. Math., 106:1 (2022), 279–285 2
10. E. M. Kartashov, S. V. Polyakov, “Generalized model representations of the theory thermal shock for local non-equilibrium processes heat transfer”, Keldysh Institute preprints, 2022, 100, 28 pp.  mathnet 1
11. T. A. Kudryashova, Yu. N. Karamzin, S. V. Polyakov, N. I. Tarasov, “Mathematical modeling of physical processes in electromagnetic water filters and heat exchangers”, Keldysh Institute preprints, 2022, 084, 24 pp.  mathnet
2021
12. S. V. Polyakov, T. A. Kudryashova, N. I. Tarasov, “Application of the multiscale approach to simulation of air sorbent filtration”, Dokl. RAN. Math. Inf. Proc. Upr., 500 (2021),  92–96  mathnet  zmath  elib; Dokl. Math., 104:2 (2021), 297–300  scopus 1
13. S. V. Polyakov, M. A. Trapeznikova, A. G. Churbanov, N. G. Churbanova, “Prediction of incompressible flows in a porous medium-free stream system”, Keldysh Institute preprints, 2021, 071, 19 pp.  mathnet 3
14. B. G. Freinkman, S. V. Polyakov, I. O. Tolstov, “Calculation of the ground state of an electron in an inhomogeneous field of a screened carbon ion”, Keldysh Institute preprints, 2021, 021, 12 pp.  mathnet
15. S. V. Polyakov, V. O. Podryga, “An algorithm for calculating the movements of diatomic gases molecules”, Matem. Mod., 33:1 (2021),  53–62  mathnet; Math. Models Comput. Simul., 13:5 (2021), 774–779 1
2020
16. S. V. Polyakov, T. A. Kudryashova, N. I. Tarasov, “Double potential method for modeling the internal flow of a viscous incompressible liquid”, Dokl. RAN. Math. Inf. Proc. Upr., 494 (2020),  76–79  mathnet  zmath  elib; Dokl. Math., 102:2 (2020), 418–421 2
17. S. V. Polyakov, Yu. N. Karamzin, T. A. Kudryashova, V. O. Podryga, D. V. Puzyrkov, N. I. Tarasov, “Multiscale supercomputer modeling of gas purification processes by the adsorption method”, Num. Meth. Prog., 21:1 (2020),  64–77  mathnet
2019
18. S. V. Polyakov, A. G. Churbanov, “Free and open source software for mathematical modeling”, Keldysh Institute preprints, 2019, 145, 32 pp.  mathnet 1
19. V. O. Podryga, E. V. Vikhrov, S. V. Polyakov, “Molecular dynamic calculation of diffusion coefficient of gases by the example of argon, nitrogen, hydrogen, oxygen, methane and carbon dioxide”, Keldysh Institute preprints, 2019, 096, 24 pp.  mathnet 1
20. N. I. Tarasov, S. V. Polyakov, Yu. N. Karamzin, T. A. Kudryashova, V. O. Podryga, D. V. Puzyrkov, “Incompressible viscous flow simulation using the quasi-hydrodynamic equations system”, Matem. Mod., 31:12 (2019),  33–43  mathnet  elib; Math. Models Comput. Simul., 12:4 (2020), 553–560 6
21. S. V. Polyakov, Yu. N. Karamzin, T. A. Kudryashova, V. O. Podryga, D. V. Puzyrkov, N. I. Tarasov, “Multiscale simulation of gas cleaning processes”, Matem. Mod., 31:9 (2019),  54–78  mathnet  elib; Math. Models Comput. Simul., 12:3 (2020), 302–315
22. V. O. Podryga, E. V. Vikhrov, S. V. Polyakov, “Molecular dynamic calculation of technical gases macroparameters on example of argon, nitrogen, hydrogen and methane”, Matem. Mod., 31:8 (2019),  44–60  mathnet  elib; Math. Models Comput. Simul., 12:2 (2020), 210–220 3
2018
23. N. I. Tarasov, Yu. N. Karamzin, T. A. Kudryashova, S. V. Polyakov, “Incompressible viscous flow simulation using the double potential method”, Keldysh Institute preprints, 2018, 247, 20 pp.  mathnet  elib
24. V. O. Podryga, S. V. Polyakov, “Supercomputer multiscale modeling of gas mixture flows in microchannels”, Num. Meth. Prog., 19:1 (2018),  38–50  mathnet
2017
25. I. V. Popov, Yu. A. Poveschenko, S. V. Polyakov, P. I. Rahimli, “One approach to constructing a conservative difference scheme for the two-phase filtration problem”, Keldysh Institute preprints, 2017, 069, 12 pp.  mathnet
2016
26. S. V. Polyakov, Yu. N. Karamzin, T. A. Kudryashova, I. V. Tsybulin, “Exponential difference schemes for solution of boundary problems for diffusion-convection equations”, Matem. Mod., 28:7 (2016),  121–136  mathnet  elib; Math. Models Comput. Simul., 9:1 (2017), 71–82  scopus 7
27. D. V. Puzyrkov, V. O. Podryga, S. V. Polyakov, “Parallel processing and visualization for results of molecular simulation problems”, Proceedings of ISP RAS, 28:2 (2016),  221–242  mathnet  elib 2
28. V. O. Podryga, S. V. Polyakov, “Parallel implementation of multiscale approach to the numerical study of gas microflows”, Num. Meth. Prog., 17:2 (2016),  147–165  mathnet 1
2015
29. V. O. Podryga, S. V. Polyakov, “3d molecular dynamic simulation of thermodynamic equilibrium problem for heated nickel”, Computer Research and Modeling, 7:3 (2015),  573–579  mathnet
30. V. O. Podryga, S. V. Polyakov, V. V. Zhakhovskii, “Atomistic calculation of the nitrogen transitions in thermodynamic equilibrium over the nickel surface”, Matem. Mod., 27:7 (2015),  91–96  mathnet  elib 2
31. Yu. N. Karamzin, T. A. Kudryashova, V. O. Podryga, S. V. Polyakov, “Multiscale simulation of nonlinear processes in technical microsystems”, Matem. Mod., 27:7 (2015),  65–74  mathnet  elib 6
32. V. O. Podryga, S. V. Polyakov, “Molecular dynamic simulation of thermodynamic equilibrium for nickel system”, Matem. Mod., 27:3 (2015),  3–19  mathnet  elib; Math. Models Comput. Simul., 7:5 (2015), 456–466  scopus 12
33. S. Polyakov, A. Vyrodov, D. Puzyrkov, M. Yakobovski, “Cloud service for decision of multiscale nanotechnology problems on supercomputer systems”, Proceedings of ISP RAS, 27:6 (2015),  409–420  mathnet  elib 1
34. V. O. Podryga, S. V. Polyakov, D. V. Puzyrkov, “Supercomputer molecular modeling of thermodynamic equilibrium in gas-metal microsystems”, Num. Meth. Prog., 16:1 (2015),  123–138  mathnet 9
2014
35. V. O. Podryga, S. V. Polyakov, “Molecular dynamic simulation of thermodynamic equilibrium problem for heated nickel”, Keldysh Institute preprints, 2014, 041, 20 pp.  mathnet 3
36. V. A. Fedirko, S. V. Polyakov, A. L. Kasatkin, “Study of an equation for Abrikosov vortex pinning on a linear defect in a superconducting slab”, Matem. Mod., 26:1 (2014),  33–41  mathnet  zmath; Math. Models Comput. Simul., 6:4 (2014), 408–414  scopus 3
2013
37. A. P. Mikhailov, A. P. Petrov, M. I. Kalinichenko, S. V. Polyakov, “Modeling simultaneous distribution of legal and counterfeit copies of innovative goods”, Matem. Mod., 25:6 (2013),  54–63  mathnet; Math. Models Comput. Simul., 6:1 (2014), 25–31  scopus 4
2012
38. S. V. Polyakov, “Exponential finite-difference schemes with double integral transformation for desicion of diffusion-convection equations”, Matem. Mod., 24:12 (2012),  29–32  mathnet; Math. Models Comput. Simul., 5:4 (2013), 338–340  scopus 8
39. V. A. Fedirko, D. A. Zenyuk, S. V. Polyakov, “To modeling of electron tunneling from ultrathin blade cathode”, Matem. Mod., 24:12 (2012),  13–22  mathnet
2010
40. S. V. Polyakov, T. A. Kudryashova, A. A. Sverdlin, E. M. Kononov, O. A. Kosolapov, “Parallel software package for modeling problems of continuous media mechanics on modern multiprocessor systems”, Matem. Mod., 22:6 (2010),  132–146  mathnet; Math. Models Comput. Simul., 3:1 (2011), 46–57  scopus 2
41. V. A. Fedirko, S. V. Polyakov, D. A. Zenyuk, “Matrix method for modeling of tunneling transport”, Matem. Mod., 22:5 (2010),  3–14  mathnet; Math. Models Comput. Simul., 2:6 (2010), 704–713  scopus 6
2008
42. T. A. Kudryashova, S. V. Polyakov, E. M. Kononov, “Calculation of radiation in gas around reentry vehicle”, Matem. Mod., 20:10 (2008),  63–74  mathnet  zmath; Math. Models Comput. Simul., 1:5 (2009), 551–560  scopus 2
43. T. A. Kudryashova, S. V. Polyakov, A. A. Sverdlin, “Calculation of gas flow parameters around reentry vehicle”, Matem. Mod., 20:7 (2008),  13–22  mathnet  zmath; Math. Models Comput. Simul., 1:4 (2009), 445–452  scopus 13
44. I. A. Ivakhnenko, S. V. Polyakov, B. N. Chetverushkin, “Quasi-hydrodynamic model and small scale turbulence”, Matem. Mod., 20:2 (2008),  13–20  mathnet  zmath; Math. Models Comput. Simul., 1:1 (2009), 44–50  scopus 8
2007
45. Yu. N. Karamzin, S. V. Polyakov, I. V. Popov, G. M. Kobel'kov, S. G. Kobel'kov, Jun Ho Choy, “Numerical simulation of nucleation and migration voids in interconnects of electrical circuits”, Matem. Mod., 19:10 (2007),  29–43  mathnet  mathscinet  zmath  elib
46. S. V. Polyakov, “Exponential finite volume schemes for solving of evolutional equations on irregular grids”, Kazan. Gos. Univ. Uchen. Zap. Ser. Fiz.-Mat. Nauki, 149:4 (2007),  121–131  mathnet 3
2005
47. B. N. Chetverushkin, V. A. Gasilov, S. V. Polyakov, E. L. Kartasheva, M. V. Iakobovski, I. V. Abalakin, V. G. Bobkov, A. S. Boldarev, S. N. Boldyrev, S. V. D'yachenko, P. S. Kriniv, A. S. Minkin, I. A. Nesterov, O. G. Olkhovskaya, I. V. Popov, S. A. Sukov, “CFD software project GIMM study of hydrodynamic problems by parallel computing”, Matem. Mod., 17:6 (2005),  58–74  mathnet 6
2003
48. Yu. N. Karamzin, S. V. Polyakov, I. V. Popov, “Difference schemes for parabolic equations on triangular grids”, Izv. Vyssh. Uchebn. Zaved. Mat., 2003, no. 1,  53–59  mathnet  mathscinet  zmath; Russian Math. (Iz. VUZ), 47:1 (2003), 51–57 1
49. Yu. N. Karamzin, I. V. Popov, S. V. Polyakov, “Finite difference methods for continuum mechanics problems on triangular and tetrahedral grids”, Matem. Mod., 15:11 (2003),  3–12  mathnet  mathscinet  zmath 2
2002
50. I. A. Graur, T. G. Elizarova, T. A. Kudryashova, S. V. Polyakov, “Numerical investigation of jet flows, using multiprocessor computer systems”, Matem. Mod., 14:6 (2002),  51–62  mathnet  zmath 3
51. I. V. Popov, S. V. Polyakov, “Construction of adaptive irregular triangular grids for 2D multiply connected nonconvex domains”, Matem. Mod., 14:6 (2002),  25–35  mathnet  mathscinet  zmath 10
1997
52. S. V. Polyakov, V. A. Sablikov, “Sablikov. Light-induced charge carriers lateral transfer in heterostructures with 2D electron gas”, Matem. Mod., 9:12 (1997),  76–86  mathnet  zmath 6
53. M. I. Kalinichenko, S. V. Polyakov, “Numerical methods for the two-dimensional model of propagation of laser radiation in a chemically active gas in well-developed thermal diffusion”, Zh. Vychisl. Mat. Mat. Fiz., 37:3 (1997),  334–347  mathnet  mathscinet  zmath; Comput. Math. Math. Phys., 37:3 (1997), 329–341 1
1993
54. Yu. N. Karamzin, S. V. Polyakov, V. A. Trofimov, “Optical bistability in semiconductors under the condition of finite time of absorpted light energy thermalization. II. Numerical simulation of spatial switching waves”, Matem. Mod., 5:4 (1993),  14–31  mathnet  zmath
55. Yu. N. Karamzin, S. V. Polyakov, V. A. Trofimov, “Optical bistability in semiconductors under the condition of finite time of absorpted light energy thermalization. I. Numerical methods. Bistability conditions”, Matem. Mod., 5:4 (1993),  3–13  mathnet  zmath
1992
56. Yu. N. Karamzin, S. V. Polyakov, V. A. Trofimov, “Mathematical modeling of an optical absorption bistability based on a semiconductor system under the condition of two-dimensional thermal conductivity”, Matem. Mod., 4:7 (1992),  31–48  mathnet
57. M. I. Kalinichenko, S. V. Polyakov, “Numerical methods for the problems of a difracting light beams propa gation in chemically active gases with thermal diffusion”, Matem. Mod., 4:2 (1992),  95–109  mathnet  mathscinet  zmath 1
1991
58. Yu. N. Karamzin, S. V. Polyakov, V. A. Trofimov, “Difference schemes for problems of absorption bistability in semiconductors”, Differ. Uravn., 27:7 (1991),  1185–1196  mathnet  mathscinet; Differ. Equ., 27:7 (1991), 833–841
1990
59. Yu. N. Karamzin, S. V. Polyakov, V. A. Trofimov, “Mathematical simulation of the optical âistability on the thermal nonlinearity of a semiconductor”, Matem. Mod., 2:12 (1990),  17–32  mathnet  zmath
1989
60. I. G. Zakharova, Yu. N. Karamzin, S. V. Polyakov, V. A. Trofimov, “Numerical methods for problems of stimulating chemical reactions in a gas by a light pulse”, Differ. Uravn., 25:7 (1989),  1219–1227  mathnet  mathscinet; Differ. Equ., 25:7 (1989), 866–873 2
2023
61. B. N. Chetverushkin, S. V. Polyakov, S. V. Bogomolov, “In memory of Igor' Germogenovich Pospelov”, Matem. Mod., 35:2 (2023),  126  mathnet

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