Geometric Origin of Dark Matter Density: A Kaluza-Klein Ansatz via Action Minimization in Bosonic String Theory
Geometric Origin of Dark Matter Density: A Kaluza-Klein Ansatz via Action Minimization in Bosonic String Theory
We propose a phenomenological model deriving the ratio of Dark Matter to Baryonic Matterdensity (Ωc/Ωb) from the dimensionality of Bosonic String Theory (D = 26). By applying thePrinciple of Least Action to the compactification process (M26 → M4 × K22), we postulate thatthe vacuum energy is distributed according to an Equipartition Principle. We identify the energycontent of the 22 hidden dimensions with Dark Matter via the Kaluza-Klein mechanism. Theresulting geometric ratio (26 − 4)/4 = 5.5 aligns with Planck 2018 observations (∼ 5.36) with highprecision (< 2.6% deviation). This suggests that Dark Matter is not a particulate WIMP, but thegravitational manifestation of the compactified geometry required to preserve Lorentz invarianceand cancel the Weyl anomaly.
fractal-dark matter shield, hidden dimensions, multiverse entropy paradox, bosonic string theory, dark matter, geometric ratio, 22 dimensions, fractal lattice, entropy isolation, gravitational binding, cosmological model, thermodynamic stability, unification of dark matter and hidden dimensions, fractal geometry as cosmic shield, dimensional analysis from string theory, geometric ratio matching observed mass distribution, entropy protection mechanism in multiverse theory, implications for cosmology and fundamental physics, fractal-dark matter shield, hidden dimensions, multiverse entropy paradox, bosonic string theory, dark matter, geometric ratio, 22 dimensions, fractal lattice, entropy isolation, gravitational binding, cosmological model, thermodynamic stability, unification of dark matter and hidden dimensions, fractal geometry as cosmic shield, dimensional analysis from string theory, geometric ratio matching observed mass distribution, entropy protection mechanism in multiverse theory, implications for cosmology and fundamental physics
fractal-dark matter shield, hidden dimensions, multiverse entropy paradox, bosonic string theory, dark matter, geometric ratio, 22 dimensions, fractal lattice, entropy isolation, gravitational binding, cosmological model, thermodynamic stability, unification of dark matter and hidden dimensions, fractal geometry as cosmic shield, dimensional analysis from string theory, geometric ratio matching observed mass distribution, entropy protection mechanism in multiverse theory, implications for cosmology and fundamental physics, fractal-dark matter shield, hidden dimensions, multiverse entropy paradox, bosonic string theory, dark matter, geometric ratio, 22 dimensions, fractal lattice, entropy isolation, gravitational binding, cosmological model, thermodynamic stability, unification of dark matter and hidden dimensions, fractal geometry as cosmic shield, dimensional analysis from string theory, geometric ratio matching observed mass distribution, entropy protection mechanism in multiverse theory, implications for cosmology and fundamental physics
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