The homogeneity scale in the Local Universe: model-independent estimate from S-PLUS DR4 blue galaxies

Abstract

We present a model-independent estimate of the angular homogeneity scale in the Local Universe by analysing data from the Southern Photometric Local Universe Survey (S-PLUS). Two complementary estimators are employed: (i) a parametric approach fitting the power-law of the two-point angular correlation function, which yields the homogeneity scale θH = 9.01-3.61+8.43\; deg; and (ii) a non-parametric fractal correlation dimension method, computing D2(θ) directly from the correlation function, which results in θH = 6.28-4.43+8.72\; deg. From the mock catalogues generated with the GLASS algorithm, we find that the estimates from both methods are within 1 σ of the median values obtained by applying both methodologies to the mocks. The transition scale to homogeneity, according to the model, is defined for matter, i.e. b = 1. Measurements of this scale with observational data clearly depends on the cosmic tracer analysed, and a calibration is necessary. Our study with blue galaxies, with bias b 1, provides a suitable estimate for comparison. Indeed, the results obtained in both approaches are compared with the value expected in the model, obtaining a good concordance.

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