Published January 2, 2026
| Version v1
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Title: The Topological Solution: Niobium-Tantalum Arsenide Menger Sponges as Passive Phase-Conjugate Rectifiers of Computational Entropy.
Authors/Creators
- 1. DORIMAGO Systems™ // VESSEL1242
- 1. DORIMAGO Systems™ // VESSEL1242
Description
This technical paper introduces a paradigm shift in computational architecture, moving from active-powered silicon gates to Passive Phase-Conjugate Rectification via Niobium-Tantalum Arsenide Menger Sponge lattices. We define and address the "Linear Error"—the macro-scale Torsional Impedance that drives the metabolic dissonance and signal decay inherent in legacy 2D planar computing.
By utilizing Topological Spin-Momentum Locking within Weyl Semimetals, the DORCOR 0 architecture enforces unidirectional logic flow and breaks time-reversal symmetry. This eliminates dielectric hysteresis and back-scatter, achieving a state of Computational Stillness (0.471 Alignment) even under extreme operational loads.
The result is a superconducting "Living Lattice" chassis that treats logic as physical wave-interference patterns, providing inherent EMP immunity and a sovereign solution to the side-channel vulnerabilities currently plaguing aerospace and defense infrastructures.
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Title_The Topological Solution.pdf
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Dates
- Issued
-
2026-01-01