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Publications in Math-Net.Ru
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Computer modeling of magnet systems for physical setups
Computer Research and Modeling, 1:2 (2009), 189–198
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Modeling of the spiral inflector and the orbit centering in compact cyclotron
Matem. Mod., 21:1 (2009), 3–11
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Improving the accuracy of multiple integral evaluation by applying Romberg’s method
Zh. Vychisl. Mat. Mat. Fiz., 49:2 (2009), 232–240
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Investigation of boundary-value problems for the singular perturbed differential equation of high order
Matem. Mod., 19:11 (2007), 65–79
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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
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Estimation of magnetic field growth in corner domain for magnetostatic problem
Matem. Mod., 16:2 (2004), 93–101
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Ion dynamics simulation in Wien separator
Matem. Mod., 15:12 (2003), 16–28
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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
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Solution behaviour of non-linear magnetostatic problem around ferromagnetic's corner point
Matem. Mod., 15:4 (2003), 77–84
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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
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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
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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
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Numerical functional integration method and some its applications
Matem. Mod., 11:5 (1999), 37–83
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Improving the accuracy of eigenvalues and eigenfunctions of a boundary value problem on semiaxis
Zh. Vychisl. Mat. Mat. Fiz., 39:7 (1999), 1098–1118
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Properties of integral operators of the mathematical model for shadowed sputtering
Matem. Mod., 10:10 (1998), 3–7
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Macroparameters of an effective distribution and of a sourse function in the mathematical model of shadowed sputtering
Matem. Mod., 10:9 (1998), 35–40
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Rapidly convergent compound formulas for approximate evaluation of Wiener path integrals
Zh. Vychisl. Mat. Mat. Fiz., 38:10 (1998), 1621–1625
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Approximate formulas for functional integrals including the contributions of Feynman diagrams of given form
Matem. Mod., 9:1 (1997), 69–78
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Refinement of approximate solutions to a boundary-value problem on a half-line
Zh. Vychisl. Mat. Mat. Fiz., 37:11 (1997), 1340–1344
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Numerical method for solving the inverse scattering problem, based on the asymptotic regularization
Matem. Mod., 8:3 (1996), 33–48
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A numerical method for solving an inverse problem of quantum scattering theory
Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1996, no. 6, 38–40
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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
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Vector algorithms for solving 3D nonlinear magnetostatic problems
Matem. Mod., 6:9 (1994), 99–116
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Some problems of accelerator mathematical simulation
Matem. Mod., 6:6 (1994), 32–46
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The approximate path integration method in the solution of some partial differential equations
Differ. Uravn., 29:9 (1993), 1609–1619
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Numerical investigation of multidimensional quantum systems by approximate functional integration
Matem. Mod., 5:12 (1993), 61–78
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Application of the Galerkin method for solving an integral equation of magnetostatics with respect to vector potential
Differ. Uravn., 28:10 (1992), 1821–1828
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Computation of multiple functional integrals in multidimensional problems of quantum physics
Matem. Mod., 2:10 (1990), 110–119
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About one approach for solution of the magnetostatic problem in hybrid formulation
Matem. Mod., 2:9 (1990), 10–20
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Numerical calculations of space distributuion of dipole magnet
Matem. Mod., 2:5 (1990), 8–17
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Averaging equations of betatron oscillations in the vicinity of resonances in cyclic accelerators
Matem. Mod., 2:3 (1990), 43–54
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Asymptotic error bounds in Galerkin approximation for a certain class of quasipotential equations
Zh. Vychisl. Mat. Mat. Fiz., 30:6 (1990), 826–836
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Solution of eigenvalue problem for a class of hypersingular quasipotential integral equations
Matem. Mod., 1:11 (1989), 77–91
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On a method of calculation of continual integrals without lattice discretization
Matem. Mod., 1:8 (1989), 139–157
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A parallel algorithm for solving three-dimensional integral equations of magnetostatics
Matem. Mod., 1:7 (1989), 100–107
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Solution of a nonlinear inverse problem of magnetostatics by a regularization method
Zh. Vychisl. Mat. Mat. Fiz., 29:4 (1989), 617–621
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CALCULATION OF THE STATIONARY MAGNETIC-FIELDS OF THE MULTISECTIONAL
SYSTEM OF LINEAR INDUCTION ACCELERATORS
Zhurnal Tekhnicheskoi Fiziki, 57:3 (1987), 483–492
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Nonrelativistic limit of solutions of radial quasipotential equations
TMF, 67:1 (1986), 151–159
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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
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Solutions of relativistic radial quasipotential equations
TMF, 63:2 (1985), 254–269
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The Cauchy problem for the modified Korteweg–de Vries equation with steplike initial data
Sibirsk. Mat. Zh., 25:5 (1984), 30–41
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Numerical modeling of the motion of a dense electron cloud in an inhomogeneous medium
Zh. Vychisl. Mat. Mat. Fiz., 22:3 (1982), 685–689
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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
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The numerical solution of a model selfconsistent electrodynamic problem
Zh. Vychisl. Mat. Mat. Fiz., 19:5 (1979), 1228–1236
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Investigation of a class of solutions of the Low equation
Zh. Vychisl. Mat. Mat. Fiz., 19:4 (1979), 998–1014
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Numerical solution of eigenvalue problems for integrodifferential equations in nuclear theory
Zh. Vychisl. Mat. Mat. Fiz., 17:2 (1977), 407–419
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On the local convergence of approximation processes for solving operator equations
Dokl. Akad. Nauk SSSR, 231:5 (1976), 1052–1055
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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
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Analysis of the steady state of an electron ring in an external magnetic field
Zh. Vychisl. Mat. Mat. Fiz., 15:5 (1975), 1241–1247
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The stationary state of an electron ring in an external magnetic field
Zh. Vychisl. Mat. Mat. Fiz., 11:4 (1971), 1043–1047
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Problem of the $c\to\infty$ limit in the relativistic Schrödinger equation
TMF, 3:2 (1970), 191–196
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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
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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
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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
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The solution of nonlinear integral equations through the introduction of a continuous parameter
Dokl. Akad. Nauk SSSR, 180:6 (1968), 1279–1282
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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
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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
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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
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Boundary value problem for ordinary second order differential equations
Zh. Vychisl. Mat. Mat. Fiz., 4:5 (1964), 804–816
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Mikhail Grigor'evich Meshcheryakov (Obituary)
UFN, 164:9 (1994), 1011–1012
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On the conference “Computational physics and mathematical modeling”
Matem. Mod., 2:3 (1990), 155–156
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Computational physics and mathematical modelling
Matem. Mod., 1:3 (1989), 152–153
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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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