2021
DOI: 10.1088/1475-7516/2021/06/053
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Multi-messenger astrophysics with the cosmic neutrino background

Abstract: The massive neutrinos of the Cosmic Neutrino Background (CνB) are fundamental ingredients of the radiation-dominated early universe and are important non-relativistic probes of the large-scale structure formation in the late universe. The dominant source of anisotropies in the neutrino flux distribution on the sky are highly amplified integrals of metric perturbations encountered during the non-relativistic phase of the CνB. This paper numerically compares the line-of-sight methods for computing CνB anisotro… Show more

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Cited by 9 publications
(17 citation statements)
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References 22 publications
(46 reference statements)
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“…As described in Ref. [2], the CνB anisotropies for massive neutrinos grow rapidly during the non-relativistic phase of their motion. With directionality, as proposed by the PTOLEMY experiment with a polarized tritium target, the CνB neutrino capture rate variation provides a map of the anisotropies on the neutrino sky as seen on Earth.…”
Section: Introductionmentioning
confidence: 80%
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“…As described in Ref. [2], the CνB anisotropies for massive neutrinos grow rapidly during the non-relativistic phase of their motion. With directionality, as proposed by the PTOLEMY experiment with a polarized tritium target, the CνB neutrino capture rate variation provides a map of the anisotropies on the neutrino sky as seen on Earth.…”
Section: Introductionmentioning
confidence: 80%
“…The cosmic variance uncertainties impose a limitation on the expected fluctuations in C , but it may be possible to reduce these effects for the CνB using the multi-messenger approach described in Ref. [2]. By correlating CνB anisotropies to luminous tracers that track the matter power spectrum, cosmic variance can be replaced by data-derived predictions for the CνB anisotropies using optical data.…”
Section: Results and Conclusionmentioning
confidence: 99%
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“…The multi-messenger approach described in Ref. [2] to correlating CνB anisotropies to luminous tracers that track the matter power spectrum is relevant to testing models of warm dark matter. The CνB massive neutrinos due to their finite velocities probe relatively high redshift matter power spectra in advance of the largest non-linear contributions.…”
Section: Results and Conclusionmentioning
confidence: 99%
“…Till now there is no detail knowledge about the anisotropy of CνB, but even if the anisotropy is small before the neutrino becomes non-relativistic, the finite mass of neutrinos amplifies the anisotropy in the low multipole moments after the nonrelativistic transition. The anisotropies for a neutrino mass of 0.01 eV are amplified by more than 100 times compared to the massless case [55]. If we assume that the anisotropy of CνB takes a value 1 for estimation, the resulting strength of the gravitational wave memory due to CνB is about…”
mentioning
confidence: 96%