We study the impact of assumptions made about the neutrino mass ordering oncosmological parameter estimation with the purpose of understanding whether in the futureit will be possible to infer the specific neutrino mass distribution from cosmological data. Wefind that although the commonly used assumption of a degenerate neutrino hierarchy is man-ifestly wrong and leads to changes in cosmological observables such as the cosmic microwavebackground and large scale structure compared to the correct (normal or inverted) neutrinohierarchy, the induced changes are so small that even with extremely optimistic assumptionsabout future data they will remain undetectable. We are thus able to conclude that whilecosmology can probe the neutrino contribution to the cosmic energy density extremely pre-cisely (and hence provide a detection of a non-zero total neutrino mass at high significance),it will not be possible to directly measure the individual neutrino masses.
What will it take to measure individual neutrino mass states using cosmology? / M. Archidiacono, S. Hannestad, J. Lesgourgues. - In: JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS. - ISSN 1475-7516. - 2020:9(2020 Sep 10). [10.1088/1475-7516/2020/09/021]
What will it take to measure individual neutrino mass states using cosmology?
M. Archidiacono
Primo
;
2020
Abstract
We study the impact of assumptions made about the neutrino mass ordering oncosmological parameter estimation with the purpose of understanding whether in the futureit will be possible to infer the specific neutrino mass distribution from cosmological data. Wefind that although the commonly used assumption of a degenerate neutrino hierarchy is man-ifestly wrong and leads to changes in cosmological observables such as the cosmic microwavebackground and large scale structure compared to the correct (normal or inverted) neutrinohierarchy, the induced changes are so small that even with extremely optimistic assumptionsabout future data they will remain undetectable. We are thus able to conclude that whilecosmology can probe the neutrino contribution to the cosmic energy density extremely pre-cisely (and hence provide a detection of a non-zero total neutrino mass at high significance),it will not be possible to directly measure the individual neutrino masses.File | Dimensione | Formato | |
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