What does this research mean for the field?

The vacuum is a discrete, pre-tensioned dodecahedral architecture where a Universal Attenuation Tensor mathematically resolves the Hierarchy Problem and derives fundamental constants as geometric translation keys rather than independent forces. Novelty: ClaimNovelty.NOVEL_FINDING. Consensus alignment: ConsensusAlignment.CHALLENGES_CONSENSUS.

What question did this study set out to answer?

The aim is to resolve the hierarchy problem and electromagnetic force ratios using a new geometric framework.

May 29, 2026Open Access

The Universal Algorithmic Cascade

Key Points

The aim is to resolve the hierarchy problem and electromagnetic force ratios using a new geometric framework.
Introduced a discrete dodecahedral hardware architecture (κ=50) for modeling vacuum.
Developed the Universal Attenuation Tensor (𝒯Ω) to derive the Planck mass from empirical mass of the proton.
Recontextualized classical physics constants as mathematical translation keys for unit mapping.
Successfully derived the continuous Planck Mass (1.22 × 10¹⁹ GeV) resolving the hierarchy problem.
Calculated the force ratio between electromagnetism and gravity as 10³⁶ using the localized fine structure limit (α) and 𝒯Ω².
Revealed foundational constants as interdependent mathematical translation keys.

Abstract

Title: The Universal Algorithmic Cascade: Resolving the Hierarchy Problem and the Electromagnetic Force Ratio via the Universal Attenuation Tensor (𝒯Ω) Author: Marco Lindenbeck Description: The Standard Model of particle physics cannot mathematically explain the 10¹⁹ magnitude gap between the hadronic scale and the Planck scale (the Hierarchy Problem), nor can it resolve the ~10³⁶ magnitude gap between electromagnetism and gravity without invoking string theory and extra dimensions. This manuscript resolves this fundamental disconnect by redefining the vacuum as a discrete, pre-tensioned dodecahedral hardware architecture (κ=50). Introducing the Universal Attenuation Tensor (𝒯Ω ≈ 1.301 × 10¹⁹)—a strictly geometric, zero-parameter scaling limit—this paper demonstrates how localized fundamental data nodes are flawlessly translated into continuous macroscopic bounds. By scaling the empirical mass of the proton strictly through this topological tensor, the framework mathematically derives the exact continuous Planck Mass (1.22 × 10¹⁹ GeV), permanently resolving the Hierarchy Problem. Crucially, the framework proves that gravity does not "leak" into hidden dimensions; it is strictly volumetrically diluted. By applying the architecture's geometric constraints, this paper derives the exact 10³⁶ force ratio between electromagnetism and gravity entirely as the product of the localized fine structure limit (α) and the squared macroscopic attenuation tensor (𝒯Ω²). Furthermore, this paper recontextualizes the foundational constants of classical physics. It proves mathematically that the Gravitational Constant (G), Planck's Constant (ℏ), and the Boltzmann Constant (kB) are not independent fundamental forces. Rather, they are monumental mathematical translation keys—the exact empirical conversion factors required to map arbitrary terrestrial units (meters, kilograms, Kelvins) across the discrete 𝒯Ω volumetric scalar. Cascading laterally to output the 13.6 eV Rydberg limit and the 0.2231 Weinberg Angle via Pythagorean structural shear, this framework bridges the microscopic and macroscopic universe. In doing so, it serves as the ultimate vindication of the classical determinism of Isaac Newton, Max Planck, and Ludwig Boltzmann—proving the universe is a flawlessly constructed, self-deriving geometric processor.

The Universal Algorithmic Cascade

Key Points

Abstract

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