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Measuring Anisotropies in the Cosmic Neutrino Background

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arxiv 1407.0393 v1 pith:FJKQGVZA submitted 2014-07-01 astro-ph.CO hep-exhep-phphysics.ins-det

Measuring Anisotropies in the Cosmic Neutrino Background

classification astro-ph.CO hep-exhep-phphysics.ins-det
keywords neutrinocosmictritiumanisotropiesbackgroundframeneutrinospolarization
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Neutrino capture on tritium has emerged as a promising method for detecting the cosmic neutrino background (CvB). We show that relic neutrinos are captured most readily when their spin vectors are anti-aligned with the polarization axis of the tritium nuclei and when they approach along the direction of polarization. As a result, CvB observatories may measure anisotropies in the cosmic neutrino velocity and spin distributions by polarizing the tritium targets. A small dipole anisotropy in the CvB is expected due to the peculiar velocity of the lab frame with respect to the cosmic frame and due to late-time gravitational effects. The PTOLEMY experiment, a tritium observatory currently under construction, should observe a nearly isotropic background. This would serve as a strong test of the cosmological origin of a potential signal. The polarized-target measurements may also constrain non-standard neutrino interactions that would induce larger anisotropies and help discriminate between Majorana versus Dirac neutrinos.

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  1. Pathways and impediments towards a detection of the relic neutrino wind

    hep-ph 2026-07 accept novelty 6.0

    Detecting the cosmic neutrino background's dipole anisotropy via tritium capture requires ~10^5 times the exposure needed for flux detection, with Majorana neutrinos suffering an additional (m_ν/T_ν)^2 suppression.