Relativity and Cosmology

   

Bimetric Theory of Gravitational-Inertial Field in Riemannian and in Finsler-Lagrange Approximation.

Authors: Jaykov Foukzon, S.A.Podosenov, A.A.Potapov, E.Menkova

In present article the original proposition is a generalization of the Einstein's world tensor g ij by the introduction of pure inertial field tensor g ac ij such that R α μνλ (g ac ij )≠0 .Bimetric theory of gravitational-inertial field is considered for the case when the gravitational-Inertial field is governed by either a perfect magnetic fluid.In a series of papers published during the past decade with respect to Mössbauer experiments in a rotating system [71]-[75],it has been experimentally shown that the relative energy shift ΔE/E between the source of resonant radiation (situated at the center of the rotating system) and the resonant absorber (located on the rotor rim) is described by the relationship ΔE/E=−ku 2 /c 2 , where u is the tangential velocity of the absorber, c the velocity of light in vacuum, and k some coefficient, which -- contrary to what had been classically predicted equal 1/2 (see for example [35]) -- turns out to be substantially larger than 1/2. It cannot be stressed enough that the equality k=1/2 had been predicted by general theory of relativity (GTR) on account of the special relativistic time dilation effect delineated by the tangential displacement of the rotating absorber, where the "clock hypothesis" by Einstein (i.e., the non-reliance of the time rate of any clock on its acceleration [35]) was straightly adopted. Hence, the revealed inequality k>1/2 indicates the presence of some additional energy shift (next to the usual time dilation effect arising from tangential displacement alone) between the emitted and absorbed resonant radiation. By using Bimetric Theory of Gravitational-Inertial Field [76] we obtain k=0.625 in a good agreement with experimental result k=0.69 [75].

Comments: 135 Pages.

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Submission history

[v1] 2018-03-06 06:43:51
[v2] 2018-03-10 11:51:12

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