The local environment of flat galaxies

Abstract

The existence of flat or bulgeless galaxies poses a challenge to the hierarchical structure formation scenario advocated by modern cosmology. We determine the geometrical environment of a sample of 315 flat galaxies from the Revised Flat Galaxy Catalog (RFGC) using `local dimension' D, which, on a given length scale, quantifies the dimension of the cosmic structure in which a galaxy is embedded. For galaxies residing in filaments, nodes and sheets, D 1, D 1.5 and D 2 respectively; D 3 represents field galaxies. We also determine the local dimensions of a sample of 15,622 non-flat galaxies identified in the Galaxy Zoo project from the Sloan Digital Sky Survey (SDSS). We find that the median values of D for the flat and the non-flat galaxies are 2.2 and 1.8 respectively, implying that flat galaxies are located in a relatively sparser environment compared to non-flat galaxies; a Kolmogorov-Smirnov (KS) test indicates that their geometrical environments are different at >99\% confidence level. Further, using a group finding algorithm, we study the local environment of a subset of 779 flat galaxies with major-to-minor axes ratio a/b >10 identified as superthin galaxies. We find that the median clusterization index kmin for superthin flat galaxies 2.3 while 1.7 for other flat galaxies, confirming that the superthins reside in an under-dense environment compared to other flat galaxies at > 98 \% confidence level. Our results may therefore have important implications for the formation and evolution models of flat galaxies in the universe.