Difference between revisions of "Vacuum Substratum, in Electrodynamics and Quantum Mechanics - Theory and Experiment"
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Latest revision as of 20:12, 1 January 2017
Scientific Paper | |
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Title | Vacuum Substratum, in Electrodynamics and Quantum Mechanics - Theory and Experiment |
Author(s) | Horst E Wilhelm |
Keywords | vacuum substratum, electrodynamics, quantum mechanics, theory and experiment, gravitational, nuclear |
Published | 1994 |
Journal | None |
Pages | 223-231 |
Abstract
The substratum of the vacuum is the carrier of the elementary force interactions, such as electromagnetic (EM), gravitational, or nuclear. These basic fields occur as excitations whereas elementary particles are probably defects in the substratum. Experiments show that the substratum has physical properties e.g. a magnetic permeability [] Vs/Am, dielectric permittivity [] As/Vm, EM wave speed c = [] m/s, and EM wave resistance []. The substratum has either very small or no gravitational mass density, and consists probably of positive and negative gravitational mass particles with positive inertial mass (confirmation of negative g-masses would invalidate equivalence principle). The substratum appears to be a superfluid since (subluminal) particles move in vacuum without experiencing retarding forces.