Novel Space Propulsion System Based on Cosmic Energy Inversion (CEIT) Theory: Theoretical Framework and Implementation Analysis

1 This article explores a fundamentally novel paradigm in space propulsion based on the Cosmic Energy Inversion Theory. Within this theoretical framework, controlled gradients of the fundamental energy field are utilized to generate propulsive force, eliminating the need for conventional fuel or combustion chambers. The proposed mechanism relies on establishing an energy differential between the interior and exterior of an isolated chamber, resulting in a net force in the desired direction. Studies indicate this technology can achieve subluminal velocities with optimal energy efficiency. Furthermore, by employing advanced isolation effects, it enables the reduction of perceived acceleration for passengers, representing a significant advantage for long-duration space travel. Numerical simulations have confirmed the validity and accuracy of the theoretical model. Potential applications of this technology include interstellar travel, galactic-scale exploratory missions, and advanced orbital maneuvering systems. Although significant technical challenges remain in system isolation and stability control, the transformative potential of this technology justifies further investment in research. This article lays the groundwork for developing a new generation of space propulsion systems.