X-Ray Propulsor: Physical Principle for an Electromagnetic Propellantless Propulsion System

TL;DR

This paper proposes a novel electromagnetic propulsion system that operates without propellant by leveraging the conservation of canonical momentum, supported by a physical model and preliminary experimental results.

Contribution

It introduces a new physical model for vacuum propulsion based on canonical momentum, differing from traditional mechanical momentum-based systems.

Findings

Preliminary experiments suggest feasible propulsion without propellant.

The model demonstrates potential advantages over conventional propulsion methods.

Electromagnetic principles enable vacuum-based propulsion systems.

Abstract

In this work we are going to develop a physical model that explains how propulsion may be developed in a vacuum by the collision of electrons with an anode. Instead of using principles related to the conservation of only the mechanical momentum to achieve propulsion, like all the current propulsion systems do, the present system achieves propulsion by using principles related to the conservation of the canonical momentum. The complete physical model will be provided and comparison with preliminary experimental results will be performed. These results are important since they show that it is possible to achieve a radical different propulsion system with many advantages.