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Zhidkov Evgenii Petrovich

Publications in Math-Net.Ru

  1. Computer modeling of magnet systems for physical setups

    Computer Research and Modeling, 1:2 (2009),  189–198
  2. Modeling of the spiral inflector and the orbit centering in compact cyclotron

    Matem. Mod., 21:1 (2009),  3–11
  3. Improving the accuracy of multiple integral evaluation by applying Romberg’s method

    Zh. Vychisl. Mat. Mat. Fiz., 49:2 (2009),  232–240
  4. Investigation of boundary-value problems for the singular perturbed differential equation of high order

    Matem. Mod., 19:11 (2007),  65–79
  5. The continues analog of the Newton method in theory scattering inverse problem under presence of eigenfunctions and eigenvalues

    Matem. Mod., 18:2 (2006),  120–128
  6. Estimation of magnetic field growth in corner domain for magnetostatic problem

    Matem. Mod., 16:2 (2004),  93–101
  7. Ion dynamics simulation in Wien separator

    Matem. Mod., 15:12 (2003),  16–28
  8. Construction of an asymptotic approximation of eigenfunctions and eigenvalues of a boundary value problem for the singular perturbed relativistic analog of the Schrodinger equation with an arbitrary potential

    Matem. Mod., 15:9 (2003),  3–16
  9. Solution behaviour of non-linear magnetostatic problem around ferromagnetic's corner point

    Matem. Mod., 15:4 (2003),  77–84
  10. The accuracy estimation of the numerical solution of the spectral problem with the operator depending on the eigenvalue

    Matem. Mod., 15:1 (2003),  87–100
  11. An adaptive algorithm for computing a function on the Lipschitzian boundary of a three-dimensional body from a given gradient, and its application in magnetostatics

    Zh. Vychisl. Mat. Mat. Fiz., 42:12 (2002),  1836–1851
  12. An Asymptotic Approximation to the Solutions and Eigenvalues of a Boundary Value Problem for a Singularly Perturbed Relativistic Analog of the Schrödinger Equation

    Differ. Uravn., 37:1 (2001),  83–90
  13. Numerical functional integration method and some its applications

    Matem. Mod., 11:5 (1999),  37–83
  14. Improving the accuracy of eigenvalues and eigenfunctions of a boundary value problem on semiaxis

    Zh. Vychisl. Mat. Mat. Fiz., 39:7 (1999),  1098–1118
  15. Properties of integral operators of the mathematical model for shadowed sputtering

    Matem. Mod., 10:10 (1998),  3–7
  16. Macroparameters of an effective distribution and of a sourse function in the mathematical model of shadowed sputtering

    Matem. Mod., 10:9 (1998),  35–40
  17. Rapidly convergent compound formulas for approximate evaluation of Wiener path integrals

    Zh. Vychisl. Mat. Mat. Fiz., 38:10 (1998),  1621–1625
  18. Approximate formulas for functional integrals including the contributions of Feynman diagrams of given form

    Matem. Mod., 9:1 (1997),  69–78
  19. Refinement of approximate solutions to a boundary-value problem on a half-line

    Zh. Vychisl. Mat. Mat. Fiz., 37:11 (1997),  1340–1344
  20. Numerical method for solving the inverse scattering problem, based on the asymptotic regularization

    Matem. Mod., 8:3 (1996),  33–48
  21. A numerical method for solving an inverse problem of quantum scattering theory

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1996, no. 6,  38–40
  22. The simulation of high energy charged particles motion in the summary dipole magnetic field and uniform magnetic field

    Matem. Mod., 7:6 (1995),  32–53
  23. Vector algorithms for solving 3D nonlinear magnetostatic problems

    Matem. Mod., 6:9 (1994),  99–116
  24. Some problems of accelerator mathematical simulation

    Matem. Mod., 6:6 (1994),  32–46
  25. The approximate path integration method in the solution of some partial differential equations

    Differ. Uravn., 29:9 (1993),  1609–1619
  26. Numerical investigation of multidimensional quantum systems by approximate functional integration

    Matem. Mod., 5:12 (1993),  61–78
  27. Application of the Galerkin method for solving an integral equation of magnetostatics with respect to vector potential

    Differ. Uravn., 28:10 (1992),  1821–1828
  28. Computation of multiple functional integrals in multidimensional problems of quantum physics

    Matem. Mod., 2:10 (1990),  110–119
  29. About one approach for solution of the magnetostatic problem in hybrid formulation

    Matem. Mod., 2:9 (1990),  10–20
  30. Numerical calculations of space distributuion of dipole magnet

    Matem. Mod., 2:5 (1990),  8–17
  31. Averaging equations of betatron oscillations in the vicinity of resonances in cyclic accelerators

    Matem. Mod., 2:3 (1990),  43–54
  32. Asymptotic error bounds in Galerkin approximation for a certain class of quasipotential equations

    Zh. Vychisl. Mat. Mat. Fiz., 30:6 (1990),  826–836
  33. Solution of eigenvalue problem for a class of hypersingular quasipotential integral equations

    Matem. Mod., 1:11 (1989),  77–91
  34. On a method of calculation of continual integrals without lattice discretization

    Matem. Mod., 1:8 (1989),  139–157
  35. A parallel algorithm for solving three-dimensional integral equations of magnetostatics

    Matem. Mod., 1:7 (1989),  100–107
  36. Solution of a nonlinear inverse problem of magnetostatics by a regularization method

    Zh. Vychisl. Mat. Mat. Fiz., 29:4 (1989),  617–621
  37. CALCULATION OF THE STATIONARY MAGNETIC-FIELDS OF THE MULTISECTIONAL SYSTEM OF LINEAR INDUCTION ACCELERATORS

    Zhurnal Tekhnicheskoi Fiziki, 57:3 (1987),  483–492
  38. Nonrelativistic limit of solutions of radial quasipotential equations

    TMF, 67:1 (1986),  151–159
  39. Stability of a solution of the isolated wave type for a nonlinear modified complex Korteweg–de Vries equation

    Sibirsk. Mat. Zh., 26:6 (1985),  39–47
  40. Solutions of relativistic radial quasipotential equations

    TMF, 63:2 (1985),  254–269
  41. The Cauchy problem for the modified Korteweg–de Vries equation with steplike initial data

    Sibirsk. Mat. Zh., 25:5 (1984),  30–41
  42. Numerical modeling of the motion of a dense electron cloud in an inhomogeneous medium

    Zh. Vychisl. Mat. Mat. Fiz., 22:3 (1982),  685–689
  43. Methods of increasing the accuracy of approximate solutions of nonlinear singular integral equations of the Chew–Low type

    Zh. Vychisl. Mat. Mat. Fiz., 21:4 (1981),  962–969
  44. The numerical solution of a model selfconsistent electrodynamic problem

    Zh. Vychisl. Mat. Mat. Fiz., 19:5 (1979),  1228–1236
  45. Investigation of a class of solutions of the Low equation

    Zh. Vychisl. Mat. Mat. Fiz., 19:4 (1979),  998–1014
  46. Numerical solution of eigenvalue problems for integrodifferential equations in nuclear theory

    Zh. Vychisl. Mat. Mat. Fiz., 17:2 (1977),  407–419
  47. On the local convergence of approximation processes for solving operator equations

    Dokl. Akad. Nauk SSSR, 231:5 (1976),  1052–1055
  48. Numerical solution of maxwell's equations in an inhomogeneous region with a moving discontinuity on the right side

    Zh. Vychisl. Mat. Mat. Fiz., 16:3 (1976),  697–704
  49. Analysis of the steady state of an electron ring in an external magnetic field

    Zh. Vychisl. Mat. Mat. Fiz., 15:5 (1975),  1241–1247
  50. The stationary state of an electron ring in an external magnetic field

    Zh. Vychisl. Mat. Mat. Fiz., 11:4 (1971),  1043–1047
  51. Problem of the $c\to\infty$ limit in the relativistic Schrödinger equation

    TMF, 3:2 (1970),  191–196
  52. A method of solving boundary value problems for non-linear differential equations that describe the motion of charged particles in magnetic accelerator fields

    Zh. Vychisl. Mat. Mat. Fiz., 10:5 (1970),  1199–1209
  53. Solution of the Dirichlet problem for a nonlinear elliptic equation by the introduction of a continuous parameter

    Dokl. Akad. Nauk SSSR, 187:4 (1969),  723–725
  54. Solution of a certain nonlinear discrete boundary value problem by means of the continuous analogue of Newton's method

    Zh. Vychisl. Mat. Mat. Fiz., 9:2 (1969),  442–447
  55. The solution of nonlinear integral equations through the introduction of a continuous parameter

    Dokl. Akad. Nauk SSSR, 180:6 (1968),  1279–1282
  56. Application of a continuous analogue of Newton's method to approximate solution of a non-linear boundary value problem

    Dokl. Akad. Nauk SSSR, 180:1 (1968),  18–21
  57. Solution of boundary value problems for nonlinear ordinary differential equations of the second degree by the method of stabilization

    Dokl. Akad. Nauk SSSR, 174:2 (1967),  271–273
  58. A method for introducing a parameter when solving boundary value problems for second-order nonlinear ordinary differential equations

    Zh. Vychisl. Mat. Mat. Fiz., 7:5 (1967),  1086–1095
  59. Boundary value problem for ordinary second order differential equations

    Zh. Vychisl. Mat. Mat. Fiz., 4:5 (1964),  804–816

  60. Mikhail Grigor'evich Meshcheryakov (Obituary)

    UFN, 164:9 (1994),  1011–1012
  61. On the conference “Computational physics and mathematical modeling”

    Matem. Mod., 2:3 (1990),  155–156
  62. Computational physics and mathematical modelling

    Matem. Mod., 1:3 (1989),  152–153
  63. Поправки к статье “Решение краевых задач для нелинейных обыкновенных дифференциальных уравнений второго порядка методом стабилизации” (ДАН, т. 174, № 2, 1967 г.)

    Dokl. Akad. Nauk SSSR, 179:6 (1968),  1333

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