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Aristova Elena Nikolaevna

Publications in Math-Net.Ru

  1. Non-iterative monotonization of high-order bicompact schemes in the quasi-diffusion method of solving the transport equation

    Mat. Model., 37:3 (2025),  18–38
  2. Investigation of the projection–characteristic method for the transport equation solving on the Kobayashi benchmark

    Mat. Model., 37:2 (2025),  63–74
  3. Monotonization of a modified scheme with Hermitian interpolation for the numerical solving of an inhomogeneous transport equation with absorption term

    Keldysh Institute preprints, 2024, 065, 40 pp.
  4. Implementation of bicompact scheme for the HOLO algorithm for solving radiative transport problems in a medium

    Keldysh Institute preprints, 2024, 064, 27 pp.
  5. Bicompact schemes for the HOLO algorithm for joint solution of the transport equation and the energy equation

    Computer Research and Modeling, 15:6 (2023),  1429–1448
  6. A third-order projection-characteristic method for solving the transport equation on unstructed grids

    Mat. Model., 35:11 (2023),  79–93
  7. The bicompact schemes for numerical solving of Reed problem using HOLO algorithms

    Mat. Model., 33:8 (2021),  3–26
  8. Comparison of dissipation and dispersion properties of compact difference schemes for the numerical solution of the advection equation

    Zh. Vychisl. Mat. Mat. Fiz., 61:11 (2021),  1747–1758
  9. Ñonservative limiting method for modification of the CIP method for solving the transport equation

    Keldysh Institute preprints, 2020, 121, 16 pp.
  10. Comparison of dissipative-dispersion properties of some conservative difference schemes

    Keldysh Institute preprints, 2020, 117, 22 pp.
  11. Hermite characteristic scheme for linear inhomogeneous transport equation

    Mat. Model., 32:3 (2020),  3–18
  12. About the influence on the accuracy of cubature formulas on the integral characteristics of solutions of the transport equation

    Mat. Model., 32:1 (2020),  15–30
  13. Implementation of the bicompact scheme for HOLO algorithms for solving the transport equation

    Keldysh Institute preprints, 2019, 021, 28 pp.
  14. The boundary conditions in the bicompact schemes for HOLO algorithms for solving the transport equation

    Mat. Model., 31:9 (2019),  3–20
  15. Bicompact high order schemes for quasi-diffusion equations

    Keldysh Institute preprints, 2018, 045, 28 pp.
  16. Characteristics scheme for the transport equation solving on a tetrahedron grid with barycentrical interpolation

    Mat. Model., 30:9 (2018),  33–50
  17. Calculation of radiation in shockwave layer of a space vehicle taking into account details of photon spectrum

    Computer Research and Modeling, 9:4 (2017),  579–594
  18. Lebesgue averaging method in serial computations of atmospheric radiation

    Zh. Vychisl. Mat. Mat. Fiz., 57:6 (2017),  1033–1047
  19. Heat radiation transfer in the Earth atmosphere

    Keldysh Institute preprints, 2016, 042, 28 pp.
  20. The second order short-characteristics method for the solution of the transport equation on a tetrahedron grid

    Mat. Model., 28:7 (2016),  20–30
  21. Bicompact schemes of solving an stationary transport equation by quasi–diffusion method

    Mat. Model., 28:3 (2016),  51–63
  22. 3D hexagonal parallel code QuDiff for fast reactor critical parameters calculations

    Mat. Model., 28:1 (2016),  107–116
  23. Optimal monotonization of a high-order accurate bicompact scheme for the nonstationary multidimensional transport equation

    Zh. Vychisl. Mat. Mat. Fiz., 56:6 (2016),  973–988
  24. Monotonization of high accuracy bicompact scheme for stationary multidimensional transport equation

    Mat. Model., 27:8 (2015),  32–46
  25. Bicompact scheme for linear inhomogeneous transport equation in a case of a big optical width

    Mat. Model., 25:10 (2013),  3–18
  26. Bicompact scheme for linear inhomogeneous transport equation

    Mat. Model., 25:5 (2013),  55–66
  27. Bicompact Rogov schemes for the multidimensional inhomogeneous linear transport equation at large optical depths

    Zh. Vychisl. Mat. Mat. Fiz., 53:10 (2013),  1684–1697
  28. Benchmark "line-by-line" calculations of atmospheric radiation

    Computer Research and Modeling, 4:3 (2012),  553–562
  29. Neutron flux computation in a reflector with new carbonic materials

    Keldysh Institute preprints, 2012, 079, 12 pp.
  30. About implementation of boundary conditions in the bicompact schemes for a linear transport equation

    Mat. Model., 24:10 (2012),  3–14
  31. Quasidiffusion method realization for fast reactor critical parameters calculation in 3D hexagonal geometry

    Mat. Model., 24:8 (2012),  65–80
  32. Efficiency of quasi-diffusion methods for calculation of crucial parameters of fast reactors

    Mat. Model., 24:4 (2012),  129–136
  33. Efficient method of the transport equation calculation in 2D cylindrical and 3D hexagonal geometries for quasi-diffusion method

    Computer Research and Modeling, 3:3 (2011),  279–286
  34. Project of active zone for the reactor of BN-800 type operating without of the reactivity margin under non-intensive control during long time

    Mat. Model., 21:10 (2009),  76–84
  35. Analog for monotone scheme for calculation of non self-conjugated system of quasi-diffusion equations in $r-z$-geometry

    Mat. Model., 21:2 (2009),  47–59
  36. Optical database DESOPLA and its using in program complex LATRANT for icf problems solving

    Mat. Model., 20:12 (2008),  3–14
  37. Low-cost calculation of multigroup neutron transport equations for time-to-time recalculation of averaged over spectrum cross-sections

    Mat. Model., 20:11 (2008),  41–54
  38. The neutron transport equation solving coupled with the quasi-diffusion equations solving in r-z geometry

    Mat. Model., 18:11 (2006),  61–66
  39. Two variants of economical method for solving of the transport equation in $r-z$ geometry on the basis of transition to Vladimirov's variables

    Mat. Model., 18:7 (2006),  43–52
  40. The difference solving of the two-dimensional steady transport equation in Vladimirov's variables

    Mat. Model., 18:6 (2006),  44–52
  41. On parallel algorithm of radiative gas flow calculations LATRANT-P

    Mat. Model., 16:4 (2004),  105–113
  42. LATRANT: two-dimensional radiative Lagrangian gas dynamics for ICF problems

    Mat. Model., 16:3 (2004),  63–77
  43. Self-adjustable neutron-nuclear mode in reactor with hart spectrum and carbide fuel

    Mat. Model., 14:1 (2002),  27–40
  44. Nonlinear acceleration of iterative convergence for solving elliptical system of equations

    Mat. Model., 13:9 (2001),  82–90
  45. Investigation of self-adjustable neutron-nuclear mode of the second kind in the fast reactor

    Mat. Model., 12:4 (2000),  33–38
  46. System “ATRAD” for calculations of atmospheric radiation: calculation of solar radiation transport in mid-latitude summer atmosphere

    Mat. Model., 11:5 (1999),  117–125
  47. Calculation of anisotropic scattering of solar radiation in atmosphe (monoenergetic case)

    Mat. Model., 10:9 (1998),  14–34
  48. Method of consideration of strong scattering anisotropy in transport equation

    Mat. Model., 9:6 (1997),  39–52
  49. The radiation transport through a ring slot in a rotation body

    Mat. Model., 9:4 (1997),  3–10
  50. Numerical method for radiation transfer in a rotation body

    Mat. Model., 9:3 (1997),  91–108
  51. A nonlinear method for solving the problems of radiation transfer in medium

    Mat. Model., 8:12 (1996),  3–28
  52. Combined difference scheme at obliqueangled cell for the elliptic operator

    Mat. Model., 3:4 (1991),  93–102
  53. A method of calculating subsonic flows of a rarefied gas at low Knudsen numbers

    Dokl. Akad. Nauk SSSR, 291:4 (1986),  793–797

  54. In memory of Vladislav Borisovich Rozanov (11 December 1932 – 5 September 2019)

    Kvantovaya Elektronika, 49:10 (2019),  988
  55. In memory of V. Ya. Gol'din

    Mat. Model., 26:7 (2014),  147–148

© Steklov Math. Inst. of RAS, 2025