The Dark Matter Ocean Model: A Unified Theory of Cosmic Structure and Dark Matter Annihilation in the Solar System

The standard ΛCDM cosmology relies on auxiliary hypotheses such as dark matter halos and singularity black holes to explain cosmic phenomena, but suffers from core flaws including logical inconsistency, failure in dark matter detection, and inability to explain the universality of disk galaxies. This paper systematically summarizes the Dark Matter Ocean Model, a revolutionary paradigm that does not contradict general relativity but reveals its fundamental material basis. The universe is a continuous, compressible, pressure-bearing fluid ocean composed of dark matter, existing in three phases (dilute, condensed, and superfluid). Spacetime curvature is an emergent phenomenon arising from gravitational wave refraction in an inhomogeneous dark matter medium, rather than a geometric property of vacuum. Galaxies are "floating continents" in this fluid, with their disk-shaped structure being a natural result of hydrodynamic equilibrium. The model quantitatively calculates the local dark matter density using Voyager’s heliopause measurements, and proposes a dual dark matter annihilation filter mechanism in the solar system: the heliopause as the first filter and planetary hydrogen atmospheres (especially Jupiter) as the second filter. This mechanism perfectly explains the long-term blank in Earth-based dark matter detection, and provides a unified theoretical framework for phenomena such as Jupiter’s nightglow and DAMPE’s PeV cosmic ray observations. The entire theory is computable, falsifiable, and observable, with no additional assumptions or free parameters, achieving complete unification from the solar system to the large-scale universe, from micro particle interactions to the ultimate fate of the universe.