Hydrodynamics of structure formation in the early Universe
msra(2009)
摘要
Theory and observations reveal fatal flaws in the standard LambdaCDM model.
The cold dark matter hierarchical clustering paradigm predicts a gradual
bottom-up growth of gravitational structures assuming linear, collisionless,
ideal flows and unrealistic CDM condensations and mergers. Collisional fluid
mechanics with viscosity, turbulence, and diffusion predicts a turbulent big
bang and top-down viscous-gravitational fragmentation from supercluster to
galaxy scales in the plasma epoch, as observed from 0.3 Gpc void sizes, 1.5 Gpc
spins and Kolmogorov-fingerprint-turbulence-signatures in the CMB. Turbulence
produced at expanding gravitational void boundaries causes a linear morphology
of 3 Kpc fragmenting plasma-protogalaxies along vortex lines, as observed in
deep HST images. After decoupling, gas-protogalaxies fragment into
primordial-density, million-solar-mass clumps of earth-mass planets forming 0.3
Mpc galactic-dark-matter. White-dwarf-heated planet-atmospheres give dimmed SNe
Ia events and false gamma-ray-burst luminosity distances, not
dark-energy-Lambda. Quasar microlensing observations rule out no-hair black
hole models and require galaxy-dark-matter to be planets-in-clumps.
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关键词
dark matter,bottom up,black hole,big bang,cold dark matter,structure formation,top down,dark energy,hierarchical clustering,gamma ray burst,fluid mechanics,white dwarf
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