In post-merger disks, electron-lepton-number crossings drive fast flavor instabilities that enhance heavy lepton neutrino fluxes, while collisional instabilities are subdominant and asymmetrically raise heavy-flavor antineutrino energies.
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Many-body correlations disrupt the inhomogeneous fast flavor instability, with flavor transformation timescale scaling logarithmically with system size.
Numerical quantum-kinetic simulations demonstrate that collisional damping alters intermediate dynamics of coexisting fast and collisional neutrino flavor instabilities yet drives all unstable cases to the identical flavor-equilibrated asymptotic state.
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Many-Body Simulations of the Fast Flavor Instability
Many-body correlations disrupt the inhomogeneous fast flavor instability, with flavor transformation timescale scaling logarithmically with system size.