Confusion Noise due to Clustered Extragalactic Point Sources. Application of Logarithmic Cumulants for Parameter Estimation

The calculation of the characteristic function of the signal fluctuations due to clustered astrophysical sources is performed in this paper. For the typical case of power-law differential number counts and two-point angular correlation function, we present an extension of Zolotarev's theorem th...

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Bibliographic Details
Published in:Publications of the Astronomical Society of the Pacific 2019-08, Vol.131 (1002), p.84101
Main Authors: Argüeso, Francisco, Herranz, Diego, Toffolatti, Luigi, González-Nuevo, Joaquín
Format: Article
Language:English
Subjects:
Correlation
Galaxies
galaxies: statistics
Parameter estimation
Power law
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Summary:The calculation of the characteristic function of the signal fluctuations due to clustered astrophysical sources is performed in this paper. For the typical case of power-law differential number counts and two-point angular correlation function, we present an extension of Zolotarev's theorem that allows us to compute the cumulants of the logarithm of the absolute value of the intensity. As a test, simulations based on recent observations of radio galaxies are then carried out, showing that these cumulants can be very useful for determining the fundamental parameters defining the number counts and the correlation. If the angular correlation scale of the observed source population is known, the method presented here is able to obtain estimators of the amplitude and slope of the power-law number counts with mean absolute errors that are one order of magnitude better than previous techniques, that did not take into account the correlation. Even if the scale of correlation is not well known, the method is able to estimate it and still performs much better than if the effect of correlations is not considered.
ISSN:0004-6280
1538-3873
DOI:10.1088/1538-3873/ab238f