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Carmelita Carbone

Researcher at INAF

Publications -  226
Citations -  9281

Carmelita Carbone is an academic researcher from INAF. The author has contributed to research in topics: Dark energy & Redshift. The author has an hindex of 35, co-authored 185 publications receiving 7781 citations. Previous affiliations of Carmelita Carbone include International School for Advanced Studies & Institut de Ciències de l'Espai.

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Euclid Definition Study Report

René J. Laureijs, +220 more
TL;DR: Euclid as mentioned in this paper is a space-based survey mission from the European Space Agency designed to understand the origin of the universe's accelerating expansion, using cosmological probes to investigate the nature of dark energy, dark matter and gravity by tracking their observational signatures.
Journal ArticleDOI

Cosmology and Fundamental Physics with the Euclid Satellite

Luca Amendola, +81 more
TL;DR: Euclid is a European Space Agency medium-class mission selected for launch in 2020 within the cosmic vision 2015-2025 program as discussed by the authors, which will explore the expansion history of the universe and the evolution of cosmic structures by measuring shapes and red-shift of galaxies as well as the distribution of clusters of galaxies over a large fraction of the sky.

Euclid Definition Study Report

René J. Laureijs, +220 more
TL;DR: Euclid as discussed by the authors is a space-based survey mission from the European Space Agency designed to understand the origin of the universe's accelerating expansion, using cosmological probes to investigate the nature of dark energy, dark matter and gravity by tracking their observational signatures.
Journal ArticleDOI

DEMNUni: the clustering of large-scale structures in the presence of massive neutrinos

TL;DR: In this paper, the authors analyse the clustering features of large scale structures in the presence of massive neutrinos, employing a set of large-volume, high-resolution cosmological N-body simulations, where neutrino are treated as separate collisionless particles, and show that most of the nonlinear evolution is generated exclusively by the CDM component.