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The Generation of Propulsion Force by the Quantum Energy: The “E-M Drive” Case

DOI: 10.4236/oalib.1103363, PP. 1-16

Subject Areas: Theoretical Physics

Keywords: EM-Drive, Etheronic Theory, Quantum Vacuum Energy, Scalar Radiation, Microwaves

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Abstract

According to an etherono-quantonic cold genesis theory, based on the Galileian relativity, which sustains the possibility of particles cold genesis by a vortexial nature of the magnetic field, given byan etherono-quantonic vortex:  which explains the magnetic A-potential and B-induction by etherons with kg and quantons with , by a resulted quantum-vortexial particle model, of composite fermion type, the EM-drive case of electromagnetically generated propulsion in vacuum by microwaves emission at 1936.7 MHz is explained by three simultaneous phenomena of EM thrust generating: a) the vibration of electrons inside the inner surface of the conical part of the microwaves antenna, under the action of microwaves; b) the conversion of radiative thermal energy of the environment into radiation of scalar quanta, by the vibrated charges of the microwaves conical antenna, at a critical value of vibration energy which allow the absorption of IR quanta; c) the generating of a propulsive force of quantum pressure gradient produced by electromagnetically vibrated atomic charges of the inner surface of microwave antenna, which increases locally the static etherono-quantonic pressure proportional with the vibration energy. Various realized experiments are in concordance with the considered explicative phenomenological mechanism. Other experiments arguing the possibility of γ-quantum conversion into non-ionizing quanta by the vibrating charges, at a critical vibration energy value. There are proposed also some verifying experiments and a drone variant using levitation/propulsion obtained by quantum fields and air ionizing and displacing.

Cite this paper

Marius, A. (2017). The Generation of Propulsion Force by the Quantum Energy: The “E-M Drive” Case. Open Access Library Journal, 4, e3363. doi: http://dx.doi.org/10.4236/oalib.1103363.

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