Breaking the Cosmic Degeneracy between Modified Gravity and Massive Neutrinos with the Cosmic Web

Abstract

In a recent work, Baldi et al. highlighted the issue of cosmic degeneracies, consisting in the fact that the standard statistics of the large-scale structure might not be sufficient to conclusively test cosmological models beyond CDM when multiple extensions of the standard scenario coexist in nature. In particular, it was shown that the characteristic features of an f(R) Modified Gravity theory and of massive neutrinos with an appreciable total mass im i are suppressed in most of the basic large-scale structure observables for a specific combination of the main parameters of the two non-standard models. In the present work, we explore the possibility that the mean specific size of the supercluster spines -- which was recently proposed as a non-standard statistics by Shim and Lee to probe gravity at large scales -- can help to break this cosmic degeneracy. By analyzing the halo samples from N-body simulations featuring various combinations of f(R) and im i we find that -- at the present epoch -- the value of im i required to maximally suppress the effects of f(R) gravity on the specific sizes of the superclusters spines is different from that found for the other standard statistics. Furthermore, it is also shown that at higher redshifts (z 0.3) the deviations of the mean specific sizes of the supercluster spines for all of the four considered combinations from its value for the standard case are statistically significant.