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Three-flavor, Full Momentum Space Neutrino Spin Oscillations in Neutron Star Mergers

Authors :
Purcell, Henry
Richers, Sherwood
Patwardhan, Amol V.
Foucart, Francois
Publication Year :
2024

Abstract

In the presence of anisotropic neutrino and antineutrino fluxes, the quantum kinetic equations drive coherent oscillations in neutrino helicity, frequently referred to as spin oscillations. These oscillations depend directly on the absolute mass scale and Majorana phase, but are usually too transient to produce important effects. In this paper we present a full momentum-space analysis of Majorana neutrino spin oscillations in a snapshot of a three-dimensional neutron star merger simulation. We find an interesting angular dependence that allows for that resonant and adiabatic oscillations to occur along specific directions in a large volume of the merger remnant. The solid angle spanned by these directions is extremely narrow in general. We then analyze spin transformation in the presence of flavor transformation by characterizing how the effect's resonance and timescale change during a fast flavor instability. For this analysis, we derive a generalized resonance condition that poses a restrictive requirement for resonance to exist in any flavor channel. We determine that spin oscillations at all locations in the merger snapshot have a length scale that is too large for significant oscillations to be expected even where there exist resonant and adiabatic directions.<br />Comment: 23 pages, 14 figures

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2404.08159
Document Type :
Working Paper