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Numerous dark matter studies of galactic halo gravitation depend on models with core radius r₀ and central density ₀. Central surface density product ₀ r₀ is found to be nearly a universal constant for a large range of galaxies. Standard variational field theory with Weyl conformal symmetry postulated for gravitation and the Higgs scalar field, without dark matter, implies nonclassical centripetal acceleration a, for a=aN+ a, where Newtonian acceleration aN is due to observable baryonic matter. Neglecting a halo cutoff at very large galactic radius, conformal a is constant over the entire halo and a=aN+ a is a universal function, consistent with a recent study of galaxies that constrains acceleration due to dark matter or to alternative theory. An equivalent dark matter source is a pure cusp distribution with cutoff parameter determined by a halo boundary radius. This is shown here to imply universal central surface density for any dark matter core model.
R. K. Nesbet (Wed,) studied this question.
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