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Evolution of Primordial Neutrino Helicities in Astrophysical Magnetic Fields and Implications for their Detection

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abstract

Since decoupling in the early universe in helicity states, primordial neutrinos propagating in astrophysical magnetic fields precess and undergo helicity changes. In view of the XENON1T experiment possibly finding a large magnetic moment of solar neutrinos, we estimate the helicity flipping for relic neutrinos in both cosmic and galactic magnetic fields. The flipping probability is sensitive both to the neutrino magnetic moment and the structure of the magnetic fields, thus potentially a probe of the fields. As we find, even a magnetic moment well below that suggested by XENON1T could significantly affect relic neutrino helicities and their detection rate via inverse tritium beta decay.

fields

hep-ph 1

years

2026 1

verdicts

ACCEPT 1

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  • Pathways and impediments towards a detection of the relic neutrino wind hep-ph · 2026-07-06 · accept · none · ref 33 · internal anchor

    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.