Matter-neutrino resonance in a multi-angle neutrino bulb model

TL;DR

This study presents the first multi-angle simulations of matter-neutrino resonances in neutrino flavor evolution, revealing that MNR phenomena persist but with reduced efficiency and additional flavor transformations, impacting nucleosynthesis in merger environments.

Contribution

It provides the first fully multi-angle calculations of MNR, demonstrating their occurrence and characteristics beyond single-angle models in neutrino flavor evolution.

Findings

MNR phenomena occur in multi-angle models, but less efficiently.

Additional flavor transformation phenomena are observed.

MNR presence leads to large-scale neutrino flavor evolution.

Abstract

Simulations of neutrino flavor evolution in compact merger environments have shown that neutrino flavor, and hence nucleosynthesis, can be strongly affected by the presence of matter-neutrino resonances (MNRs), where there is a cancelation between the matter and the neutrino potential. Simulations performed thus far follow flavor evolution along a single neutrino trajectory, but self-consistency requires all trajectories to be treated simultaneously, and it has not been known whether MNR phenomena would still occur in multi-angle models. In this paper, we present the first fully multi-angle calculations of MNR. We find that familiar MNR phenomena, where neutrinos transform to a greater extent than anti-neutrinos and a feedback mechanism maintains the cancellation between the matter and neutrino potential, still occurs for a subset of angular bins, although the flavor transformation is not as efficient as in the single-angle case. In addition, we find other types of flavor transformation that are not seen in single-angle simulations. These flavor transformation phenomena appear to be robust and are present for a wide range of model parameters, as long as an MNR is present. Although computational constraints currently limit us to models with spherical symmetry, our results suggest that the presence of an MNR generally leads to large-scale neutrino flavor evolution in multi-angle systems.