Zobrazeno 1 - 8
of 8
pro vyhledávání: '"L. Ya. Arifov"'
Publikováno v:
Theoretical and Mathematical Physics. 141:1593-1607
We find a new solution describing a homogeneous stationary axially symmetric model, which, in contrast to the Godel model, does not contain closed timelike lines. We find exact solutions corresponding to the motion of a null string in the rotating Un
Publikováno v:
Teoreticheskaya i Matematicheskaya Fizika. 141:304-320
Publikováno v:
Low Temperature Physics. 27:636-639
The spectra of coupled magnetoelastic waves in a ferromagnet with an inclined easy axis are determined. Analysis of the spectra obtained shows that such a system can have one more phase in addition to the ferromagnetic and canted phases. This phase c
Autor:
L. Ya. Arifov, B. J. Ahmedov
Publikováno v:
General Relativity and Gravitation. 26:1187-1195
The general relativistic formula for charge distribution inside conductors has been obtained from the Maxwell equations with the help of the constitutive relations. The charge distribution and fields that will arise in a conductor which has no conduc
Autor:
L. Ya. Arifov, R. M. Zalaletdinov
Publikováno v:
Physics Letters A. 106:231-234
The linearization stability of the vacuum Schwarzschild space-time against arbitrary small metric perturbations in the region from event horizon to spatial infinity is investigated. It is proved that the linearized Einstein equations have solutions i
Autor:
L. Ya. Arifov
Publikováno v:
Soviet Physics Journal. 24:346-351
Einstein's generalization of Newton's theory of gravitation in the general theory of relativity led not only to small quantitative differences between gravitational effects in the relativistic theory and the Newtonian theory, but also to essentially
Autor:
L. Ya. Arifov, I. I. Gutman
Publikováno v:
Soviet Physics Journal. 9:10-14
Autor:
L. Ya. Arifov
Publikováno v:
Soviet Physics Journal. 10:17-19
It is shown that, in the space of the general theory of relativity, the velocity of an electromagnetic wave front in a non-inertial frame of reference, and of electromagnetic and gravitational wave fronts in a synchronous frame of reference, is const