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7
Therefore, so-called “electrogravity” (the unification of gravitation and EM fields) could be
achieved directly by combining (12) and electromagnetism in arrangements similar to Podkletnov’s.
The driving force that altered gravity would be in the most-simple case, the same well-known
vacuum radiation detected in the Casimir-effect
[
1].
Finally, the main conclusion of this paper is that quantum vacuum is essential for the
existence of space-time, so that we cannot imagine space-time without the effects of vacuum
radiation. The inclusion of QV in physics provides much clearer equations that tend to simplify each
other, even down to a yet unknown extend, with the possibility to get very close to the so-called
“universal formula”. The corresponding much better understanding of the physical world may lead
us to unexpected technologies that arise at Planck level such as gravity manipulation, dimensional
control, “stargate” technology, string-colliders etc. [12].
References
[1] H.G.B. Casimir, “On the attraction between two perfectly conducting plates”, Pr oc. Kon. Ned.
Akad. van Weten., Vol. 51, No. 7, pp. 793-796 (1948).
[2] S.K. Lamoreux, “Demonstration of the Casimir force in the 0.6 to 6 mm range”, Phys. Rev.
Lett., Vol. 78, No. 1, pp. 5-8 (1997).
[3] P.W. Milonni, R.J. Cook, & M.E. Goggin, “Radiation pressure from the vacuum: Physical
interpretation of the Casimir force”, Phys. Rev. A, Vol. 38, No. 3, pp. 1621-1623 (1988).
[4] B. Haisch, A. Rueda & H.E. Puthoff, “Inertia as a zero-point-field Lorenz force”, Physical
Review A, Vol. 49, No. 2, pp. 678-694 (1994).
[5] H.E. Puthoff, “The Energetic Vacuum: Implications For Energy Research, Speculations in
Science and Technology”, Vol. 13, No. 4, pp. 247-257 (1990).
[6] B. Haisch, A. Rueda, “Toward an Interstellar Mission: Zeroing in on the Zero-Point-Field
Inertia Resonance”, AIP Conference Proceedings of the Space Technolog y and Applications
Forum (STAIF-2000) Conference on Enabling Technology and Required Scientifi c
Developments for Interstellar Missions, January 30-February 3, Albuquerque, NM ( 2000).
[7] P.C.W. Davies, “Scalar particle production in Schwarzschild and Rindler metrics”, J. Phys. A,
Vol. 8, p. 609 (1975).
[8] W.G. Unruh, “Notes on black-hole evaporation”, Phys. Rev. D, Vol. 21, p. 2137 (1980).
[9] E.E. Podkletnov (Moscow Chem. Scientific. Ctr.), "Weak Gravitation Shielding Properties of
Composite Bulk YBa2Cu3O7-x Superconductor Below 70°K under E.M. Field," Univ.
Cincinnati Engineering, report # MSU-chem 95, abstract cond-mat/9701074, 19 pp. (1997).
[10] N. Li, D. Noever, T. Robertson, R. Koczor and W. Brantley, “Static Test for A Gravitational
Force Coupled to Type II YBCO Superconductors”, Physica C, Vol. 281, pp. 260-267 (1997) .
[11] G. Modanese, “On the theoretical interpretation of E. Podkletnov's experiment”, I.N.F.N. -
Trento, Extract from report UTF-391/96, LANL gr-qc/9612022; presented for the World
Congress of the International Astronautical Federation, 1997, No. IAA-97 -4.1.07.
[12] Carlos Calvet, “About the quantum vacuum lepton/photon ratio”, Journal of Theoretics, Vol. 4,
No. 2, April 2002 (preprint)
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