Add to ORKGI review the challenges and problems facing the standard cosmological model, involving an $\Omega=1$ Universe dominated by non-baryonic dark matter, which arise due to: age estimates of the universe, estimates of the baryon fraction of the universe, and structure formation. Certain of these problems are exacerbated, and certain of these are eased, by the inclusion of some component to the energy density of matter from massive neutrinos. I conclude with a comparison of the two favored current cosmological models, involving either a mixture of cold dark matter and hot dark matter, or the inclusion of a cosmological constant
The recent atmospheric neutrino data from Super-Kamiokande provide strong evidence of neutrino oscil...
Cosmology demands particle physics beyond the Standard Model: we need to explain the nature of dark ...
Precisely measuring the large-scale structure of the universe is key to learning about fundamental p...
Present-day cosmology is experiencing a rather exciting season, as many observations of unprecedente...
Determinations of the main cosmological parameters are reviewed and the implications for cold dark m...
Cosmological measurements are affected by the energy density of massive neutrinos. We extend here a ...
The data indicating existence of different forms of dark matter in the universe as well as the role ...
Astrophysical and cosmological arguments and observations give us the most restrictive constraints o...
The cosmological parameters that I will emphasize are the Hubble parameter $H_0 \equiv 100 h$ km s$^...
The present experimental results on neutrino flavour oscillations provide evidence for non-zero neut...
Cosmological dark matter in the form of neutrinos with masses of up to a few electron volts is known...
We investigate the signatures left by massive neutrinos on the spatial distribution of neutral hydro...
The clustering ratio is defined as the ratio between the correlation function and the variance of th...
We review bounds on neutrino properties, in particular on their masses, coming mostly from cosmology...
We examine whether future, nearly all-sky galaxy redshift surveys, in combination with CMB priors, w...
The recent atmospheric neutrino data from Super-Kamiokande provide strong evidence of neutrino oscil...
Cosmology demands particle physics beyond the Standard Model: we need to explain the nature of dark ...
Precisely measuring the large-scale structure of the universe is key to learning about fundamental p...
Present-day cosmology is experiencing a rather exciting season, as many observations of unprecedente...
Determinations of the main cosmological parameters are reviewed and the implications for cold dark m...
Cosmological measurements are affected by the energy density of massive neutrinos. We extend here a ...
The data indicating existence of different forms of dark matter in the universe as well as the role ...
Astrophysical and cosmological arguments and observations give us the most restrictive constraints o...
The cosmological parameters that I will emphasize are the Hubble parameter $H_0 \equiv 100 h$ km s$^...
The present experimental results on neutrino flavour oscillations provide evidence for non-zero neut...
Cosmological dark matter in the form of neutrinos with masses of up to a few electron volts is known...
We investigate the signatures left by massive neutrinos on the spatial distribution of neutral hydro...
The clustering ratio is defined as the ratio between the correlation function and the variance of th...
We review bounds on neutrino properties, in particular on their masses, coming mostly from cosmology...
We examine whether future, nearly all-sky galaxy redshift surveys, in combination with CMB priors, w...
The recent atmospheric neutrino data from Super-Kamiokande provide strong evidence of neutrino oscil...
Cosmology demands particle physics beyond the Standard Model: we need to explain the nature of dark ...
Precisely measuring the large-scale structure of the universe is key to learning about fundamental p...