Abstract
This paper presents a comprehensive theoretical model for a warp bubble that enables faster-than-light travel using positive energy densities, an advancement over traditional models that rely on exotic negative energies. Building on the framework proposed by Eric Lentz, we introduce a non-uniform energy distribution model to enhance control and efficiency in warp field generation. The research validates the stability and feasibility of a warp bubble sustained by positive energy through detailed numerical simulations and analysis. Key findings include the discovery of anisotropic behavior in the warp bubble's structure, which allows for directional tuning of the warp field, thereby optimizing space- time manipulation and reducing energy demands. These results represent a significant step forward in the theoretical foundations of warp drive technology and its potential practical applications.
Publisher
International Journal of Innovative Science and Research Technology
Reference30 articles.
1. Alcubierre, M. (1994). The warp drive: hyper-fast travel within general relativity. Classical and Quantum Gravity, 11(5), L73.
2. Lentz, E. W. (2020). Closed Timelike Curves in Warp Drive Spacetimes. Physical Review D, 102(10), 106011.
3. White, H. (2013). Warp Field Mechanics 101. NASA Technical Memorandum, 1-15.
4. Morris, M. S., Thorne, K. S., & Yurtsever, U. (1988). Wormholes, Time Machines, and the Weak Energy Condition. Physical Review Letters, 61(13), 1446-1449.
5. Everett, A. E., & Roman, T. A. (1997). A superluminal subway: the Krasnikov tube. Physical Review D, 56(4), 2100-2108.
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