Abstract
The authors report some encouraging results with basis on their calculations to forecast the magnitude of anomalous thrust forces measured in resonant microwave cavities with dielectrics, for two configurations known as Cannae-Drive and Tapered Drive, when operating for high values of power. Despite of the weakness of the forces, both devices could provide us with a novel future propulsion technology by means of a thrust without ejecting propellant. In the calculations, they applied their theoretical model based on the dipole-environment interaction via generalised quantum entanglements (GQE) ensuring the momentum conservation principle. They obtain good agreement with the experimental measurements, although the anomalous forces have weak magnitude. The control and enhancement of the effect can be accomplished by applying GQE hypothesis in order to allow the future viability of a new technology based on quantum electromagnetic propulsion of aircrafts and vehicles.
Highlights
In recent years, it has been developed intense research on the existence of anomalous thrust effects in a resonant microwave cavity [1,2,3,4,5,6,7,8,9]
We present our study and analysis concerning to the existence of a weak-induced force or thrust in microwave cavities in devices formed by dielectric in two shapes: Cannae-Drive and Tapered Drive
Our calculations confirmed with good accuracy the experimental results earlier reported in the literature concerning to the presence of weak anomalous forces in a dielectric cavity
Summary
It has been developed intense research on the existence of anomalous thrust effects in a resonant microwave cavity [1,2,3,4,5,6,7,8,9]. The investigation for understanding and enhancing the phenomenon can mean the advent of a remarkable new space propulsion technology named electromagnetic drive (EM-Drive) [5,6,7,8,9] Such drives were for the first time proposed in 2001 by Roger Shawyer as a device formed by a conical cavity which had the function of converting electrical energy into microwaves which at last provided thrust to move a rocket or an airship. That type of drive corresponds to a propulsion technology that does not demand on-board propellant to generate thrust but Lorentz Force imbalances created by thrusters to generate propulsion It has since his initial report improved so in the design as in performance, with more and more increasing in the magnitude of the thrust obtained. Such a case can involve both the Cannae-Drive and the Tapered Drive
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
