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Volume 13 | Issue 2 | Year 2026 | Article Id. IJGGS-V13I2P102 | DOI : https://doi.org/10.14445/23939206/IJGGS-V13I2P102Dark Matter and Dark Energy as the Artifacts From Processes that Occur Outside of Our Universe
Marek S. Żbik
| Received | Revised | Accepted | Published |
|---|---|---|---|
| 09 May 2026 | 12 Jun 2026 | 29 Jun 2026 | 14 Jul 2026 |
Citation :
Marek S. Żbik, "Dark Matter and Dark Energy as the Artifacts From Processes that Occur Outside of Our Universe," International Journal of Geo-informatics and Geological Science, vol. 13, no. 2, pp. 14-23, 2026. Crossref, https://doi.org/10.14445/23939206/IJGGS-V13I2P102
Abstract
Peculiar behavior of astronomical bodies has been observed for a long time. This includes stars circling galaxy centers in non-Newtonian motion, the unusually fast movement of galaxies within their local groups, as well as gravitational lensing by apparent empty space and unusual galaxy distribution, assembling them into a spanning network interconnected by fibrous filaments over vast spaces. All those observed phenomena cannot be understood without ad hoc developed forces of dark matter and dark energy. Here, a speculative axiom is proposed that explains those mysterious behaviors as artifacts of gravitational influence generated by violent processes that occur outside our Universe. Without considering the Universe to be only a small part of a larger space-time continuum, those misunderstood phenomena become impossible to grasp. An alleged theorem of dark matter posits that it gravitationally binds all matter in the Universe, while dark energy counteracts this, trying to tear the fabric of the Universe apart by stretching it in all directions. Presented here, the axiom argues that most of the observed peculiar behavior of astronomical bodies results from the action of strong gravitational blows from exogenous processes that originate from outside our Universe. Over thousands of millions of years, gravitational pulls originating from outside our Universe’s membrane; by binding its fabric, inflicting wrinkles. Those undulations, resulting in bending spacetime, create gravitational waves which, after interference within the spacetime fabric membrane, over a giga-year (Gy) lapse, transform the originally uniform distribution of galaxies into a vast, highly porous, filamentary spatial network, as observed today. Further study of the large-scale structure of the Universe using multiple methods, including precise space scanning with high-precision gravitational-wave detectors and gravitational lensing, may reveal more about our Universe's exo-environment.
Keywords
Dark Matter, Dark Energy, Exogenous Cosmology, Wrinkles of Spacetime, Shells.
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