What question did this study set out to answer?

This paper aims to develop a model of white holes as ultra-dense electron structures and explore their potential applications in warp propulsion.

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June 2, 2026Open Access

Electron-Based Hypothetical Model of White Holes and Its Possible Application in Warp Propulsion

Key Points

This paper aims to develop a model of white holes as ultra-dense electron structures and explore their potential applications in warp propulsion.
Proposes a conceptual framework for white holes as electron-based structures.
Discusses stabilizing mechanisms including gravitational confinement and structural frameworks.
Explores speculative applications in warp propulsion technologies.
Introduces a novel theoretical model of white holes with unique properties and potential applications.
Suggests that white holes could be utilized in advanced propulsion systems, theoretically enhancing travel beyond traditional means.

Abstract

White holes are theoretical solutions arising from certain interpretations of Einstein’s General Relativity. Unlike black holes, which attract and absorb matter and energy, white holes are hypothesized to expel matter and prevent any form of entry. This paper presents a conceptual model in which a white hole is described as an ultra-dense structure primarily composed of electrons. It is assumed that a stabilizing mechanism—such as strong gravitational confinement, a proton/neutron structural framework, or an unknown fundamental interaction—maintains stability despite intense electrostatic repulsion. In addition, a speculative application of this concept in advanced warp propulsion systems is briefly explored.

Electron-Based Hypothetical Model of White Holes and Its Possible Application in Warp Propulsion

Key Points

Abstract

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