
The Negative Result of Gravitational Tests for Multidimensional Kaluza−Klein Models
Author(s) -
Maxim Eingorn,
Alexander Zhuk
Publication year - 2012
Publication title -
ukrainian journal of physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.213
H-Index - 17
eISSN - 2071-0194
pISSN - 2071-0186
DOI - 10.15407/ujpe57.4.443
Subject(s) - physics , kaluza–klein theory , general relativity , extra dimensions , gravitation , gravitational field , mathematical physics , metric (unit) , classical mechanics , quantum mechanics , operations management , economics
In the Kaluza–Klein model with toroidal extra dimensions, we obtain the metric coefficients in the weak-field approximation for delta-shaped matter sources. These metric coefficients are used to calculate the formulas for the frequency shift, perihelion shift, and deflection of light. In the leading order of approximation, the formula for the frequency shift coincides with the well-known expression from general relativity. However, for the perihelion shift and the light deflection, we obtain formulas Dπrg/[(D – 2)a(1 – e2)] and (D – 1)rg/[(D – 2)ρ], respectively, where D is a total number of spatial dimensions. These expressions demonstrate good agreement with experimental data only in the case of the ordinary three-dimensional (D = 3) space. This result does not depend on the size of the extra dimensions. We also obtain the exact 5-D soliton solution with correct non-relativistic Newtonian limit. The energy momentum tensor for this solution has clear physical interpretation. However, the classical tests for this metric do not satisfy the experimental data. Therefore, the considered multidimensional Kaluza–Klein models face a severe problem.