Scaling Laws in the Stellar Mass Distribution and the Transition to Homogeneity

Scaling Laws in the Stellar Mass Distribution and the Transition to Homogeneity

We present a new statistical analysis of the large-scale stellar mass distribution in the Sloan Digital Sky Survey (data release 7). A set of volume-limited samples shows that the stellar mass of galaxies is concentrated in a range of galaxy luminosities that is very different from the range selecte...

Full description

Bibliographic Details
Main Author: José Gaite
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:Advances in Astronomy
Online Access:http://dx.doi.org/10.1155/2021/6680938
id doaj-c2a7471cf7bb4702afddff805df4848a
record_format Article
spelling doaj-c2a7471cf7bb4702afddff805df4848a2021-02-22T00:01:34ZengHindawi LimitedAdvances in Astronomy1687-79772021-01-01202110.1155/2021/6680938Scaling Laws in the Stellar Mass Distribution and the Transition to HomogeneityJosé Gaite0Physics Dept.We present a new statistical analysis of the large-scale stellar mass distribution in the Sloan Digital Sky Survey (data release 7). A set of volume-limited samples shows that the stellar mass of galaxies is concentrated in a range of galaxy luminosities that is very different from the range selected by the usual analysis of galaxy positions. Nevertheless, the two-point correlation function is a power-law with the usual exponent γ=1.71−1.82, which varies with luminosity. The mass concentration property allows us to make a meaningful analysis of the angular distribution of the full flux-limited sample. With this analysis, after suppressing the shot noise, we extend further the scaling range and thus obtain γ=1.83 and a clustering length r0=5.8−7.0h−1Mpc. Fractional statistical moments of the coarse-grained stellar mass density exhibit multifractal scaling. Our results support a multifractal model with a transition to homogeneity at about 10h−1Mpc.http://dx.doi.org/10.1155/2021/6680938
collection DOAJ
language English
format Article
sources DOAJ
author José Gaite
spellingShingle José Gaite
Scaling Laws in the Stellar Mass Distribution and the Transition to Homogeneity
Advances in Astronomy
author_facet José Gaite
author_sort José Gaite
title Scaling Laws in the Stellar Mass Distribution and the Transition to Homogeneity
title_short Scaling Laws in the Stellar Mass Distribution and the Transition to Homogeneity
title_full Scaling Laws in the Stellar Mass Distribution and the Transition to Homogeneity
title_fullStr Scaling Laws in the Stellar Mass Distribution and the Transition to Homogeneity
title_full_unstemmed Scaling Laws in the Stellar Mass Distribution and the Transition to Homogeneity
title_sort scaling laws in the stellar mass distribution and the transition to homogeneity
publisher Hindawi Limited
series Advances in Astronomy
issn 1687-7977
publishDate 2021-01-01
description We present a new statistical analysis of the large-scale stellar mass distribution in the Sloan Digital Sky Survey (data release 7). A set of volume-limited samples shows that the stellar mass of galaxies is concentrated in a range of galaxy luminosities that is very different from the range selected by the usual analysis of galaxy positions. Nevertheless, the two-point correlation function is a power-law with the usual exponent γ=1.71−1.82, which varies with luminosity. The mass concentration property allows us to make a meaningful analysis of the angular distribution of the full flux-limited sample. With this analysis, after suppressing the shot noise, we extend further the scaling range and thus obtain γ=1.83 and a clustering length r0=5.8−7.0h−1Mpc. Fractional statistical moments of the coarse-grained stellar mass density exhibit multifractal scaling. Our results support a multifractal model with a transition to homogeneity at about 10h−1Mpc.
url http://dx.doi.org/10.1155/2021/6680938
work_keys_str_mv AT josegaite scalinglawsinthestellarmassdistributionandthetransitiontohomogeneity
_version_ 1714853087602016256

Similar Items