We propose a cosmological framework derived from first principles—the Meta-State Cosmological Model. Starting from two direct observational facts—the universe is ordered (physical laws are universal and stable) and full (the universe has not reached heat death despite billions of years of expansion)—the model deduces, through pure logical inference, an alternative paradigm to the standard ΛCDM model. The core hypotheses are as follows. There exists a pre-cosmic ultimate entity, the "Meta-State," consisting of a duality: "Ji-Kong" (the infinite, absolutely pure substrate of spatial capacity that accommodates all possibilities) and "Ji-You" (the infinite, absolutely dense primordial energy that contains the potential for all possibilities). A net leakage of Ji-You energy into Ji-Kong triggers the birth of a Chaotic Void. Within this void, statistical mechanics leads to the condensation of an ordered core—a Singularity. Under extreme external pressure, the Singularity erupts and unfolds into a "Rule-Wall"—a spherical conversion front that continuously transforms external chaotic energy into internal ordered mass-energy. This Rule-Wall mechanism simultaneously explains the fundamental driving force behind cosmic expansion, the continuous injection of matter and energy, the fixation and constancy of physical laws, and the observed superluminal recession of the cosmic horizon. The Rule-Wall's voyage through the Chaotic Void encompasses a variety of encounters, each of which projects onto the internal universe as an observable phenomenon, including ordinary cosmic voids, the KBC supervoid, CMB temperature anomalies, the Great Attractor, primordial supermassive black holes, and ultra-high-energy cosmic rays. This model introduces no inflaton field, no dark-energy particles, no extra dimensions, and no arbitrary initial conditions. All concepts originate solely from the dual interaction of Ji-Kong and Ji-You. The model explicitly acknowledges five cognitive boundaries and honestly marks the domains that are unknowable or untestable.
zhijun li (Sun,) studied this question.