%0 Journal Article
%T Gravitational Field Shielding by Scalar Field and Type II Superconductors
%A Zhang B. J.
%A Zhang T. X.
%A Guggilia P.
%A Dohkanian M.
%J Progress in Physics
%D 2013
%I HEXIS (Arizona)
%X The gravitational field shielding by scalar field and type II superconductors are theoretically investigated. In accord with the well-developed five-dimensional fully covariantKaluza-Klein theory with a scalar field, which unifies the Einsteinian general relativity and Maxwellian electromagnetic theory, the scalar field cannot only polarize the space as shown previously, but also flatten the space as indicated recently. The polarization of space decreases the electromagnetic field by increasing the equivalent vacuum permittivity constant, while the flattening of space decreases the gravitational field by decreasing the equivalent gravitational constant. In other words, the scalar field can be also employed to shield the gravitational field. A strong scalar field significantly shield the gravitational field by largely decreasing the equivalent gravitational constant. According to the theory of gravitational field shielding by scalar field, the weight loss experimentally detected for a sample near a rotating ceramic disk at very low temperature can be explained as the shielding of the Earth gravitational field by the Ginzburg-Landau scalar field, which is produced by the type II superconductors. The significant shielding of gravitational field by scalar field produced by superconductors may lead to a new spaceflight technology in future.
%K type II superconductors
%K five-dimensional Kaluza-Klein theory
%K rotating ceramic disk
%U http://www.ptep-online.com/index_files/2013/PP-32-11.PDF