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Publications in Math-Net.Ru |
Citations |
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2024 |
1. |
A. Yu. Morozov, D. L. Reviznikov, “Parametric identification of dynamic systems based on external interval estimates of phase variables”, Computer Research and Modeling, 16:2 (2024), 299–314 |
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2023 |
2. |
A. Yu. Morozov, D. L. Reviznikov, “Algorithms for the numerical solution of fractional differential equations with interval parameters”, Sib. Zh. Ind. Mat., 26:4 (2023), 93–108 ; J. Appl. Industr. Math., 17:4 (2023), 815–827 |
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2021 |
3. |
V. Yu. Gidaspov, A. Yu. Morozov, D. L. Reviznikov, “Adaptive interpolation algorithm using TT-decomposition for modeling dynamical systems with interval parameters”, Zh. Vychisl. Mat. Mat. Fiz., 61:9 (2021), 1416–1430 ; Comput. Math. Math. Phys., 61:9 (2021), 1387–1400 |
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2020 |
4. |
A. Yu. Morozov, D. L. Reviznikov, “Modeling of Dynamic Systems with Interval
Parameters in the Presence of Singularities”, Rus. J. Nonlin. Dyn., 16:3 (2020), 479–490 |
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5. |
D. L. Reviznikov, A. V. Sposobin, I. E. Ivanov, “Comparative analysis of calculated and experimental data on an oscillating flow induced by the gasdynamic interaction of a particle with a shock layer”, TVT, 58:6 (2020), 901–908 ; High Temperature, 58:6 (2020), 839–845 |
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6. |
D. L. Reviznikov, A. V. Sposobin, I. E. Ivanov, “Oscillatory flow regimes resulting from the shock layer–particle interaction”, High Temperature, 58:2 (2020), 278–283 |
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2018 |
7. |
A. Yu. Morozov, D. L. Reviznikov, V. Yu. Gidaspov, “kd-Tree based adaptive interpolation algorithm for chemical kinetics problems with interval parameters”, Matem. Mod., 30:12 (2018), 129–144 ; Math. Models Comput. Simul., 11:4 (2019), 622–633 |
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8. |
D. L. Reviznikov, A. V. Sposobin, I. E. Ivanov, “A change in the structure of a flow under the action of highly inertial particle when a hypersonic heterogeneous flow passes over a body”, TVT, 56:6 (2018), 908–913 ; High Temperature, 56:6 (2018), 884–889 |
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2017 |
9. |
K. K. Abgaryan, S. V. Eliseev, A. A. Juravlev, D. L. Reviznikov, “High-speed penetration. Discrete-element simulation and experiments”, Computer Research and Modeling, 9:6 (2017), 937–944 |
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10. |
K. S. Zhuravlev, T. V. Malin, V. G. Mansurov, O. E. Tereshchenko, K. K. Abgaryan, D. L. Reviznikov, V. E. Zemlyakov, V. I. Egorkin, Ya. M. Parnes, V. G. Tikhomirov, I. P. Prosvirin, “AlN/GaN heterostructures for normally-off transistors”, Fizika i Tekhnika Poluprovodnikov, 51:3 (2017), 395–402 ; Semiconductors, 51:3 (2017), 379–386 |
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11. |
S. A. Semenov, D. L. Reviznikov, “Effective use of programmable graphics processing units in problems of molecular dynamics simulation”, Sistemy i Sredstva Inform., 27:4 (2017), 109–121 |
12. |
D. L. Reviznikov, A. V. Sposobin, T. Yu. Sukharev, “Numerical simulation of the flow around a blunt body in supersonic polydisperse stream”, TVT, 55:3 (2017), 418–425 ; High Temperature, 55:3 (2017), 400–406 |
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2016 |
13. |
K. K. Abgaryan, D. L. Reviznikov, “Numerical simulation of the distribution of charge carrier in nanosized semiconductor heterostructures with account for polarization effects”, Zh. Vychisl. Mat. Mat. Fiz., 56:1 (2016), 155–166 ; Comput. Math. Math. Phys., 56:1 (2016), 161–172 |
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2015 |
14. |
K. K. Abgaryan, A. A. Juravlev, N. L. Zagordan, D. L. Reviznikov, “Discrete-element simulation of a spherical projectile penetration into a massive obstacle”, Computer Research and Modeling, 7:1 (2015), 71–79 |
2
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2013 |
15. |
D. L. Reviznikov, Y. V. Slastushenskiy, “Numerical simulation of anomalous diffusion in polygonal billiard gas channel”, Matem. Mod., 25:5 (2013), 3–14 |
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2009 |
16. |
V. V. Vinnikov, D. L. Reviznikov, A. V. Sposobin, “Two-phase shock layer in supersonic dusty gas flow”, Matem. Mod., 21:12 (2009), 89–102 ; Math. Models Comput. Simul., 2:4 (2010), 514–525 |
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2008 |
17. |
R. F. Ganiev, D. L. Reviznikov, L. E. Ukrainsky, “Wave mixing”, Nelin. Dinam., 4:4 (2008), 483–496 |
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2007 |
18. |
D. L. Reviznikov, A. V. Sposobin, “Numerical simulation of the solid phase impact on the blunt body surface in supersonic dusty flow”, Matem. Mod., 19:11 (2007), 101–111 |
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2006 |
19. |
E. V. Astrakhantseva, V. Yu. Gidaspov, U. G. Pirumov, D. L. Reviznikov, “Numerical simulation of hemodynamics in arterial tree.
Investigation of vessel compression influence on flow parameters”, Matem. Mod., 18:8 (2006), 25–36 |
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2005 |
20. |
E. V. Astrakhantseva, V. Yu. Gidaspov, D. L. Reviznikov, “Mathematical modelling of hemodynamics of large blood vessels”, Matem. Mod., 17:8 (2005), 61–80 |
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21. |
V. V. Vinnikov, D. L. Reviznikov, “Cartesian grids methods for numerical solution of Navier–Stokes equations in domains with curvilinear boundaries”, Matem. Mod., 17:8 (2005), 15–30 |
7
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2003 |
22. |
D. S. Mikhatulin, Yu. V. Polezhaev, D. L. Reviznikov, “Investigation of failure of carbon heat-shielding material under conditions of flight in dusty atmosphere”, TVT, 41:1 (2003), 98–105 ; High Temperature, 41:1 (2003), 88–94 |
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2002 |
23. |
A. Yu. Varaksin, A. F. Polyakov, D. L. Reviznikov, V. K. Strat'ev, A. F. Tret'yakov, “Investigation of Flow in the Vicinity of Porous Material on a Cylindrical Body Subjected to Flow”, TVT, 40:6 (2002), 909–915 ; High Temperature, 40:6 (2002), 843–849 |
3
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2001 |
24. |
T. Jinrong, W. Shuru, Sh. Qing, A. A. Pyarnpuu, D. L. Reviznikov, “Boundary element method calculation of the fluid flowing through a porous blunt body”, Matem. Mod., 13:6 (2001), 62–69 |
25. |
D. S. Mikhatulin, Yu. V. Polezhaev, D. L. Reviznikov, “Investigation of failure of fiberglass plastic under conditions of flight in dusty atmosphere”, TVT, 39:4 (2001), 640–648 ; High Temperature, 39:4 (2001), 596–603 |
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2000 |
26. |
D. L. Reviznikov, “Conjugate heat and mass transfer under flow around non-uniform bodies”, Matem. Mod., 12:7 (2000), 51–57 |
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1999 |
27. |
D. L. Reviznikov, V. V. Rusakov, “Heat transfer and cristallization kinetics of melted drops under intensive cooling”, Matem. Mod., 11:2 (1999), 55–64 |
28. |
A. F. Polyakov, D. L. Reviznikov, “Singularities of thermal protection of the front edge under conditions of combination porous penetration and convection-conduction cooling”, TVT, 37:6 (1999), 928–931 ; High Temperature, 37:6 (1999), 895–898 |
1
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29. |
A. F. Polyakov, D. L. Reviznikov, “Numerical simulation of conjugate heat and mass transfer under conditions of convection-and-curtain cooling”, TVT, 37:3 (1999), 420–426 ; High Temperature, 37:3 (1999), 393–400 |
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1998 |
30. |
A. F. Polyakov, D. L. Reviznikov, “Numerical simulation of conjugate heat transfer under conditions of transpiration cooling of cylindrical front edge”, TVT, 36:4 (1998), 617–623 ; High Temperature, 36:4 (1998), 593–599 |
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1997 |
31. |
R. B. Kuz'min, D. S. Mikhatulin, Yu. V. Polezhaev, D. L. Reviznikov, V. V. Rusakov, “Investigation of solidification of smelt drops in high-velocity flow of cold gas”, TVT, 35:3 (1997), 504–507 ; High Temperature, 35:3 (1997), 497–500 |
2
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1995 |
32. |
Yu. V. Polezhaev, D. S. Mikhatulin, D. L. Reviznikov, V. V. Rusakov, “Basic regularities of crystallization kinetics and possibilities of preparing amorphous metals”, TVT, 33:6 (1995), 971–976 ; High Temperature, 33:6 (1995), 970–975 |
33. |
R. B. Kuz'min, Yu. V. Polezhaev, A. F. Polyakov, D. L. Reviznikov, “Numerical simulation of conjugate heat transfer under conditions of flow around gas turbine blades”, TVT, 33:4 (1995), 608–615 ; High Temperature, 33:4 (1995), 602–608 |
34. |
D. S. Mikhatulin, Yu. V. Polezhaev, D. L. Reviznikov, V. V. Rusakov, “Formation of amorphous metallic particles during aerodynamic cooling”, TVT, 33:3 (1995), 430–436 ; High Temperature, 33:3 (1995), 429–434 |
35. |
D. L. Reviznikov, “Coefficients of nonisothermality in the problem of unsteady-state conjugate heat transfer on the surface of blunt bodies”, TVT, 33:2 (1995), 261–267 ; High Temperature, 33:2 (1995), 259–264 |
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Organisations |
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