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The Unified Field Theory /
Unified Field Theory and the Topological Origin of Dark Energy Variation: Particle Stability and Entropy-Driven Compression Fields
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Description: We present a first-principles derivation of dark energy dynamics from the unified field framework of the Information-Causal Compression Field (ICCF) theory. By modeling vacuum compression fields as topological and entropic structures, we reinterpret dark energy as a dynamical phenomenon emerging from the interplay between compression tensor flow and entropy gradient divergence. Building upon prior work on particle stability, particularly the 41.2 GeV solitonic solution, we derive a causal field equation for λ(t), the time-dependent dark energy density, and establish its physical and geometric origin as an entropic residual of unstable compression modes. This theory provides a testable, falsifiable model for the slowing of cosmic acceleration and unifies massive and massless field behavior under a single compressive geometry.
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Causal Compression and the Emergence of Dark Energy: A Unified Framework for Cosmology and Quantum Gravity
This work introduces the Information-Cognitive Compression Field (ICCF) framework, a unified theoretical structure that provides a causal, entropic, a...
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