In this paper we present a derivation of the strict form of the propagation constant for a rotating disk, taking into account the inertial forces of the reference system. This work is a generalization of known facts in a complete methodology. We use formulations related to the use of deflection angle - transition of the ray from a straight-line trajectory under the action of inertia forces. This study allows conducting high-precision computer simulations of electromagnetic effects arising in non-inertial frames of reference. Strict conclusions are achieved by the exception of rest frame theory. Two-dimensional electromagnetic propagation problem is solved in a non-inertial frame of reference. A rotating frame of reference is a good example of any noninertial frame of reference, therefore, this particular model was chosen to be considered. We use the classical approach for describing the conditions for the propagation of electromagnetic waves in noninertial reference frames: the refined refractive index of the medium. The possibility of modeling using the obtained formulations is demonstrated on a rotating circular infinite cylinder. Verification of the results was carried out. Distributions of the propagation constant in a rotating medium are presented. The results are obtained using CAD of electromagnetic modeling. The comparison was made for data from open sources. Validation of the method proved its effectiveness.
|Translated title of the contribution||Завершенная форма для численного анализа постоянной распространения электромагнитных волн в неинерциальной системе отсчета|
|Number of pages||15|
|Publication status||Published - 2019|
- 29.00.00 PHYSICS
Level of Research Output
- VAK List