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We consider on-center and off-center observers in an inhomogeneous, spherically symmetric, isocurvature (flat) concentration of dark energy with a typical size of a few Gpc. Such a concentration could be produced e. g. by a recently formed global monopole with core size that approaches the Hubble scale. In this case we would have what may be called ``topological quintessence'' in analogy with the well-known topological inflation. We show that the minimum comoving radius r₀₌₈₍ of such a dark energy inhomogeneity that is consistent with the Union2 type Ia supernovae data at the 3 level is r₀₌₈₍1. 8 Gpc. As expected, the best-fit fractional dark energy density at the center, ₗ, ₈₍, approaches the corresponding value ₗ, ₈₍=0. 73 for large enough values of the inhomogeneity radius r₀ (r₀>4 Gpc). Using the Union2 data, we show that the maximum allowed shift r₎₁ₒ-₌₀ₗ of the observer from the center of the inhomogeneity is about 0. 7r₀, which respects the Copernican principle. The model naturally predicts the existence of a preferred axis and alignment of the low CMB multipoles. However, the constraints on r₎₁ₒ-₌₀ₗ coming from the magnitude of the CMB dipole remain a severe challenge to the Copernican principle and lead to r₎₁ₒ-₌₀ₗ<110 Mpc, even for an inhomogeneity radius as large as r₀=7 Gpc.
Grande et al. (Wed,) studied this question.
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