Rasulov Medzhid Lyatifovich

Publications in Math-Net.Ru

1. A residue method for solving mixed problems for a class of hyperbolic systems
   
   Dokl. Akad. Nauk SSSR, 300:6 (1988),  1321–1324
2. Expansion of functions in a series of a complete integral residue and the solution of mixed problems
   
   Dokl. Akad. Nauk SSSR, 286:1 (1986),  42–46
3. Asymptotic representation of the fundamental matrix of solutions of a system of ordinary differential equations with two parameters
   
   Differ. Uravn., 19:2 (1983),  229–253
4. An expansion formula for a spectral problem with boundary conditions containing derivatives of higher order than the equation
   
   Differ. Uravn., 18:12 (1982),  2149–2166
5. An application of the residue method
   
   Differ. Uravn., 18:5 (1982),  877–885
6. Solution of a mixed problem for a second order parabolic equation that contains a time derivative in the boundary condition
   
   Differ. Uravn., 13:5 (1977),  920–930
7. Solution of a mixed problem for an equation of parabolic type with discontinuous coefficients
   
   Differ. Uravn., 13:4 (1977),  682–692
8. Solution of a mixed problem for a second order parabolic equation under boundary conditions of mixed type
   
   Differ. Uravn., 13:3 (1977),  497–508
9. Construction of a potential with quasiregular kernel in closed form
   
   Differ. Uravn., 12:7 (1976),  1282–1289
10. Solution of certain problems of the theory of oscillation of shells
    
    Differ. Uravn., 10:12 (1974),  2242–2261
11. Fundamental matrix of the principal part of a system of equations for visco-plastic media
    
    Dokl. Akad. Nauk SSSR, 208:5 (1973),  1038–1040
12. Solution of one-dimensional linear mixed problems for a system with coefficients constant in time
    
    Differ. Uravn., 8:12 (1972),  2225–2234
13. An effective solution of the Cauchy problem for a system of equations of viscoplastic media
    
    Differ. Uravn., 8:6 (1972),  1026–1035
14. The solution of one-dimensional problems for a second order parabolic system in unbounded domains
    
    Differ. Uravn., 7:7 (1971),  1263–1275
15. An application of the medhod of the contour integral to the solution of multidimensional mixed problems for second order parabolic systems
    
    Dokl. Akad. Nauk SSSR, 193:2 (1970),  292–293
16. The fundamental matrix of a second order elliptic system with a complex parameter
    
    Dokl. Akad. Nauk SSSR, 192:6 (1970),  1221–1223
17. Estimates of the solution of a boundary value problem with a complex parameter for a second order elliptic system
    
    Dokl. Akad. Nauk SSSR, 192:5 (1970),  995–997
18. An application of the method of the contour integral to the solution of the Cauchy problem for a second order parabolic system
    
    Differ. Uravn., 6:12 (1970),  2286–2287
19. Solution of the Cauchy problem for a system of elasticity theory in an arbitrary domain
    
    Differ. Uravn., 6:9 (1970),  1543–1551
20. The Cauchy problem for the equation of vibration of a plate
    
    Differ. Uravn., 6:4 (1970),  688–691
21. New integral transforms
    
    Dokl. Akad. Nauk SSSR, 189:5 (1969),  945–948
22. A solution of the Cauchy problem and the mixed problem for a certain parabolic system
    
    Dokl. Akad. Nauk SSSR, 180:6 (1968),  1300–1302
23. The fundamental matrix of solutions of the system of the spectral problem of heat and mass transfer
    
    Dokl. Akad. Nauk SSSR, 180:5 (1968),  1039–1040
24. An application of the method of the contour integral to the solution of mixed problems for a certain parabolic system
    
    Dokl. Akad. Nauk SSSR, 177:6 (1967),  1281–1284
25. Lösung von Aufgaben der Theorie des Wärme- und Massentransports
    
    Differ. Uravn., 3:8 (1967),  1292–1298
26. A formula for the expansion of an arbitrary matrix-function in terms of the solution of a spectral problem
    
    Differ. Uravn., 3:6 (1967),  941–947
27. Application of the contour integral method to the solution of mixed problems with boundary conditions of mixed type
    
    Differ. Uravn., 2:9 (1966),  1201–1213
28. The contour integral method and its application to the solution of multi-dimensional mixed problems for differential equations of parabolic type
    
    Mat. Sb. (N.S.), 60(102):4 (1963),  393–410
29. Conditions for the correctness of one-dimensional mixed problems
    
    Dokl. Akad. Nauk SSSR, 139:2 (1961),  305–308
30. The use of contour integral in solving mixed problems for equations with discontinuous coefficients
    
    Dokl. Akad. Nauk SSSR, 131:1 (1960),  24–26
31. The residue method for solution of mixed problems for differential equations and a formula for expansion of an arbitrary vector-function in fundamental functions of a boundary problem with a parameter
    
    Mat. Sb. (N.S.), 48(90):3 (1959),  277–310
32. A formula for the expansion of an arbitrary function into a series of fundamental functions in a certain class of boundary problems with a parameter for linear partial differential equations
    
    Dokl. Akad. Nauk SSSR, 120:2 (1958),  252–255
33. Residual method of solving mixed problems and some related expansion formulas
    
    Dokl. Akad. Nauk SSSR, 120:1 (1958),  33–36
34. A formula for the expansion of an arbitrary function
    
    Dokl. Akad. Nauk SSSR, 119:3 (1958),  450–453
35. Investigation of a residue method of solution of some mixed problems for differential equations
    
    Mat. Sb. (N.S.), 30(72):3 (1952),  509–528


36. «Метод контурного интеграла и его применение к исследованию задач для дифференциальных уравнений»
    
    Differ. Uravn., 1:8 (1965),  1117–1124