Mestvirishvili Mirian Alekseevich

Publications in Math-Net.Ru

1. From high-energy physics to the relativistic theory of gravity
   
   TMF, 191:2 (2017),  228–233
2. Integral of motion in general relativity and the effect of accumulating excessive internal energy of a body under gravitational contraction
   
   TMF, 183:1 (2015),  152–160
3. External gravitational field of a nonstatic spherically symmetric body in the relativistic theory of gravitation
   
   TMF, 181:2 (2014),  401–416
4. Impossibility of gravitational collapse
   
   TMF, 174:2 (2013),  292–302
5. The structure of the integral of motion and the impossibility of gravitational collapse
   
   TMF, 171:1 (2012),  150–153
6. Hilbert's causality principle and equations of general relativity exclude the possibility of black hole formation
   
   TMF, 170:3 (2012),  489–496
7. The physical inconsistency of the Schwarzschild and Kerr solutions
   
   TMF, 164:1 (2010),  172–176
8. Gravitational collapse is impossible in the relativistic theory of gravity
   
   TMF, 161:2 (2009),  295–304
9. Absence of gravitational radiation from a nonstatic spherically symmetric body in the relativistic theory of gravity
   
   TMF, 161:1 (2009),  109–114
10. Gravitational waves in the relativistic theory of gravity
    
    TMF, 160:2 (2009),  270–275
11. Massive dust ball pulsating under the action of its gravitational field
    
    TMF, 155:2 (2008),  244–251
12. Quintessence scalar field in the relativistic theory of gravity
    
    TMF, 152:3 (2007),  551–560
13. The internal Schwarzschild-type solution in the field theory of gravity
    
    TMF, 147:1 (2006),  155–160
14. Gravitational field self-limitation and its role in the Universe
    
    UFN, 176:11 (2006),  1207–1225
15. External Gravitational Field of a Nonstatic Spherically Symmetric Body in the Inertial Frame
    
    TMF, 145:3 (2005),  425–432
16. Repulsive Forces in the Field Theory of Gravity
    
    TMF, 145:2 (2005),  272–288
17. How were the Hilbert–Einstein equations discovered?
    
    UFN, 174:6 (2004),  663–678
18. Causality Principle in the Relativistic Theory of Gravity
    
    TMF, 129:1 (2001),  153–160
19. What happens near the Schwarzschild sphere for a nonzero graviton rest mass
    
    TMF, 121:1 (1999),  4–24
20. On the possibility of gravitational collapse in general relativity
    
    TMF, 112:2 (1997),  324–336
21. The stress-energy tensor of matter as a gravitational field source
    
    TMF, 110:1 (1997),  5–24
22. On incorrect formulations of the equivalence principle
    
    UFN, 166:1 (1996),  81–88
23. The equivalence principle
    
    TMF, 99:1 (1994),  121–140
24. The relativistic theory of gravitation based on a space of constant curvature
    
    TMF, 86:2 (1991),  163–176
25. The fundamental principles of the relativistic theory of gravitation
    
    TMF, 86:1 (1991),  3–15
26. Friedmann model of evolution of the universe in the relativistic theory of gravitation
    
    TMF, 80:2 (1989),  305–312
27. Graviton mass and evolution of a Friedmann universe
    
    TMF, 74:1 (1988),  3–15
28. The relativistic theory of gravitation and its consequences
    
    UFN, 155:3 (1988),  369–396
29. Relativistic theory of gravitation and criticism of general relativity
    
    TMF, 73:2 (1987),  163–186
30. Gauge transformation in the relativistic theory of gravitation
    
    TMF, 67:3 (1986),  323–335
31. On the relationship between inertial and gravitational masses in an extended body in metric theories of gravity
    
    Trudy Mat. Inst. Steklov., 167 (1985),  108–155
32. Relativistic theory of gravitation and the graviton rest mass
    
    TMF, 65:1 (1985),  3–15
33. Relativistic theory of gravitation
    
    TMF, 61:3 (1984),  327–346
34. Theory of gravitation based on Minkowski space and the principle of geometrization
    
    TMF, 61:3 (1984),  323–326
35. Do extended bodies move along geodesics of Riemannian space-time?
    
    TMF, 47:1 (1981),  3–37
36. Integral equation for the causal distributions and their self-similar asymptotic behavior in the ladder $\Phi^3$ model
    
    TMF, 45:3 (1980),  302–312
37. Contribution from far singularities in the $\cos\theta$ plane to the scattering amplitude and to the distribution function of inclusive processes
    
    TMF, 43:3 (1980),  291–308
38. Gravitational effects in the field theory of gravitation
    
    TMF, 43:2 (1980),  147–186
39. Influence of singularities in the $\cos\theta$ plane on the behavior of inclusive spectra at high energies
    
    TMF, 41:1 (1979),  4–11
40. New concepts of space-time and gravitation
    
    TMF, 40:3 (1979),  291–328
41. Singularities of the amplitude in the $\cos\theta$; plane and scattering at high energies
    
    TMF, 39:2 (1979),  147–164
42. Breaking of scale invariance and behavior of the spectral function in the Jost–Lehmann–Dyson representation
    
    TMF, 39:1 (1979),  35–47
43. Can the weak interaction become strong ?
    
    TMF, 36:2 (1978),  147–158
44. Dispersion relation for $3\to 3$ forward amplitude and generalized optical theorem
    
    TMF, 33:2 (1977),  149–173
45. High energy behavior of exclusive and inclusive cross sections
    
    TMF, 32:1 (1977),  3–33
46. Does the $u$ channel in the $t$ plane influence the behavior of the forward differential scattering cross section at high energies?
    
    TMF, 28:2 (1976),  147–156
47. Analyticity, unitarity and restrictions on inclusive cross-sections at high energies
    
    Trudy Mat. Inst. Steklov., 136 (1975),  194–219
48. New bounds of the distribution function of an inclusive process
    
    TMF, 21:3 (1974),  305–310
49. Asymptotic equality of mean multiplicities of particles in crossed inclusive processes
    
    TMF, 18:3 (1974),  339–341
50. Cutoff of particle momenta in an inclusive process at large angles
    
    TMF, 17:3 (1973),  327–331
51. On the limiting regime of cross sections in strong interactions at high energy
    
    TMF, 16:2 (1973),  233–234
52. Inclusive processes at high energies
    
    TMF, 15:2 (1973),  153–181
53. Lower bound for the decrease of the differential cross section of an inclusive process at high energies
    
    TMF, 11:2 (1972),  203–205
54. Restrictions on the behavior of elastic and inelastic cross sections at high energies. II
    
    TMF, 9:2 (1971),  153–189
55. Restrictions on the behavior of elastic and inelastic cross sections at high energies. I
    
    TMF, 9:1 (1971),  3–43
56. High-energy scattering by a smooth potential
    
    TMF, 8:2 (1971),  206–214
57. Constraints on growth of binary process amplitudes
    
    TMF, 7:2 (1971),  195–202
58. Vector dominance and decrease of the differential cross section of lepton-pair production at high energies and large scattering angles
    
    TMF, 7:2 (1971),  192–194
59. Unitary condition and decrease of the differential cross section of multiparticle production with increasing energy
    
    TMF, 6:1 (1971),  42–54
60. On the equality of the total cross sections for the interaction of particles and antiparticles at high energy
    
    TMF, 4:2 (1970),  196–201
61. An integral representation for the two-particle amplitude in the nonrelativistic case
    
    Dokl. Akad. Nauk SSSR, 164:2 (1965),  301–304
62. Analytic properties of the meson-nucleon vertex part and scattering amplitudes of pseudoscalar mesons in perturbation theory
    
    Dokl. Akad. Nauk SSSR, 148:3 (1963),  562–565


63. In memory of Anatoly Alekseevich Logunov
    
    UFN, 185:9 (2015),  1005–1006