What Is Dupliter? A New Theory of Time Travel and Planetary Duplication
This paper introduces the Dupliter, a speculative framework for stabilizing nonlinear time travel through gravitational interactions with a theoretical duplicate of Jupiter. The hypothesis posits that temporal displacement becomes feasible when dark matter potential energy in galactic halo outskirts is harnessed, enabling the Milky Way's accelerated motion to generate spacetime distortions. The Dupliter, acting as a gravitational anchor, could mediate these effects, creating a gateway for traversing nonlinear timelines.
This hypothesis proposes that as our Milky Way experience tiny accelerations due to gravitational forces from dark matter and stellar density the galaxy as a whole is also moving through space at high speeds, influenced by gravitational attractions such as those from the Great Attractor and Shapley Supercluster. However, these motions are not "continuous acceleration" in the sense of speeding up indefinitely; they are governed by gravitational dynamics.
The Dupliter — This suggests that time travel could become feasible only after the dark matter potential energy in halo outskirts to attain a higher cosmic velocity, explaining why humanity has yet to achieve temporal displacement.
DOI: 10.5281/zenodo.15215248
