[Research 7-2] Cosmic Dynamical Rotational Pressure and Temperature-Driven Contraction

This study presents a unified interpretation in which cosmic-scale dynamical rotational pressure, internal rotational pressure within matter, and the formation of planets and orbital systems originate from the resonant intrinsic nature of temperature-driven contraction, defined with respect to the background environment of the universe at absolute zero (0 K, −273 °C).

Temperature contraction is a universal background pressure condition that drives physical systems toward a reference state in which electronic motion and resonance are suppressed. Under this condition, space selects rotational order as the unique stable solution that avoids structural collapse. In contrast, thermal energy acts as a deviation from this contraction reference state and induces counter-phase expansive rotational components relative to the existing rotation. The interaction between these phases gives rise to electronic activation, redistribution of layered (orbital) structures, and the expansion, collapse, and re-assimilation of orbital systems, appearing as a common structural pattern that spans both microscopic and macroscopic scales.

Furthermore, this study demonstrates that pressure phenomena traditionally distinguished as magnetic fields, electrical pressure effects, and atmospheric pressure are likewise interconnected, representing manifestations of electronic activation and rotational–configurational order projected into space under differing conditions. On this basis, the present work proposes a new integrative framework that reinterprets cosmic structure and material dynamics through the central concepts of temperature-driven contraction and rotational phase order.