A Theoretical Definition of Tensor-Based Cosmic Structure and Observational Alignment of Universal Axes

A Theoretical Definition of Tensor-Based Cosmic Structure and Observational Alignment of Universal Axes Description This paper proposes a unified cosmological framework based on spatial tensor alignment. Initiated by the ordered interpretation of Saturn’s hexagonal polar vortex, the study introduces a tensor-based directional structure as the foundation of cosmic organization. The model demonstrates consistent alignment among the cosmic microwave background (CMB) axis of evil, galactic rotation axes, large-scale filaments, and planetary features such as Jupiter’s Great Red Spot. Additionally, it examines coherence with the magnetic axes of Earth and the Sun. Extending beyond structural geometry, the work redefines time and light as tensor-governed phenomena, offering a comprehensive reinterpretation of space, energy flow, and cosmic structure within a directional tensor system. --- Version 5 Update Notes: This version integrates the newly added chapter: - Chapter 6-2: Redefining Galactic Rotational Structure through the Theory of Spatial Tensor Alignment This chapter provides a structural reinterpretation of galactic rotation curves based on tensor alignment theory, offering a unified explanation without relying on dark matter. Additionally, this version consolidates previously separated chapters into a single, unified document for improved coherence and readability. Abstract (English) This paper presents a comprehensive theoretical framework based on spatial tensor structures, initiated by the ordered interpretation of Saturn’s hexagonal polar vortex. By assuming directional tensor alignment across space, the study extends its analysis to the alignment of the cosmic microwave background (CMB) axis of evil, galactic rotation axes, large-scale filaments, and prominent planetary features such as Jupiter’s Great Red Spot. The work also includes structural correlations with the magnetic fields of Earth and the Sun. Beyond spatial alignment, this theory redefines fundamental concepts such as time and light as manifestations of tensor coherence. The study offers a unified model to reinterpret cosmic structure, motion, and field interactions within a consistent directional tensor system. Files A Theoretical Definition of Tensor-Based Cosmic Structure and Observational Alignment of Universal Axes.pdf Files (1.8 MB) | Name | Size | Download all | |---|---|---| | md5:9a07ebd54acda1a39bcc5497a180bed8 | 1.8 MB | Preview Download | Additional details Additional titles - Alternative title (English) - Expanded Version with Chapter 6-2: Redefining Galactic Rotational Structure through Spatial Tensor Alignment Identifiers Dates - Issued - 2025-06-21This study proposes a novel cosmological framework based on the concept of spatial tensor structures. It introduces the T1 axis as a universal alignment reference and demonstrates its consistency with multiple observational data, including the anisotropic distribution of the Cosmic Microwave Background (CMB), the magnetic axis of the Sun, and the galactic filament orientation. The theory redefines time as the result of tensor passage frequency rather than a separate dimension. This work also includes experimental and visual evidence, such as replicated hexagonal fluid dynamics patterns, supporting the validity of this tensor-based model. The study provides new insights into gravity, electromagnetic fields, and the structure of space-time, and aims to offer an alternative to conventional interpretations of cosmic expansion and dark energy. Software - Repository URL - https://note.com/gay_walrus1644 - Development Status - Wip