English

Connecting the Galactic and Cosmological Scales: Dark Energy and the Cuspy-Core Problem

Astrophysics 2007-12-04 v1
Authors: A. D. Speliotopoulos
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Abstract

We propose a solution to the `cuspy-core' problem by extending the geodesic equations of motion using the Dark Energy length scale λDE=c/(ΛDEG)1/2\lambda_{DE}=c/(\Lambda_{DE} G)^{1/2}. This extension does not affect the motion of photons; gravitational lensing is unchanged. A cosmological check of the theory is made, and σ8\sigma_8 is calculated to be 0.68±0.110.68_{\pm0.11}, compared to 0.7610.048+0.0490.761_{-0.048}^{+0.049} for WMAP. We estimate the fractional density of matter that cannot be determined through gravity at 0.197±0.0170.197_{\pm 0.017}, compared to 0.1960.026+0.0250.196^{+0.025}_{-0.026}, the fractional density of nonbaryonic matter. The fractional density of matter that can be determined through gravity is estimated at 0.0410.031+0.0300.041_{-0.031}^{+0.030}, compared to 0.04160.0039+0.00380.0416_{-0.0039}^{+0.0038} for ΩB\Omega_B.

Keywords

dark energy dark matter in galaxy clusters dark matter

Cite

@article{arxiv.0712.0216,
  title  = {Connecting the Galactic and Cosmological Scales: Dark Energy and the Cuspy-Core Problem},
  author = {A. D. Speliotopoulos},
  journal= {arXiv preprint arXiv:0712.0216},
  year   = {2007}
}

Comments

Eleven pages, written in RevTex. This letter submitted for publication reports on the results of the analysis found in the preprint 0711.3124 [astro-ph]. Moreover, the value of $\Omega_{asymp}$ has been corrected to 0.197, and $Omega_{Dyn}$ has been corrected to 0.041. Please refer to the longer paper for the detailed calculations and theory

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