The Cyclic Asymmetric-Push Model: A Thermodynamic Framework for Evolving Dark Energy and Dark Matter Accumulation

This paper presents the Cyclic Asymmetric-Push Model (CAPM), a deterministic framework that identifies the physical source of cosmic expansion and its inevitable entropic decay. Moving beyond the limitations of the standard Lambda-CDM model, CAPM defines the Big Bang as a Phase Flip transition—a mechanical reopening of a progenitor massive Black Hole from a previous state into an active White Hole expansion.

The model identifies the expansion driver as "Black Light" (negative radiation), which exerts an asymmetric push on galactic structures. A core breakthrough of this model is the "Wither Effect," which quantifies the evolution of Dark Energy as a finite commodity. Due to the Second Law of Thermodynamics and the "leaky loop" of the recycling process, this energy weakens over cosmic time.

Furthermore, CAPM resolves the mystery of Dark Matter by identifying it as the "ash" or thermodynamic exhaust of the cosmic recycling process. As "Black Light" is spent and Dark Matter exhaust accumulates, the universe undergoes a mandatory shift from expansion to collapse, facilitating a new Phase Flip. This framework provides a direct physical link between the JWST discovery of mature early galaxies and the evolving Dark Energy data recently observed by DESI.