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research-publ
Mu-Tau Neutrinos: Influencing Fast Flavor Conversions in Supernovae
Neutrinos in a core-collapse supernova can undergo fast flavor conversions with a possible impact on the explosion mechanism and nucleosynthesis. We perform the first nonlinear simulations of fast conversions in […]
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Inference of neutrino flavor evolution through data assimilation and neural differential equations
The evolution of neutrino flavor in dense environments such as core-collapse supernovae and binary compact object mergers constitutes an important and unsolved problem. Its solution has potential implications for the […]
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Astrophysical Simulations
PFC Major Activity 5 | The connections N3AS investigators strive to make between observations and fundamental neutrino, dense matter, and dark matter physics require high-fidelity simulations of supernovae, mergers, kilonovae, […]
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Dark Matter
PFC Major Activity 4 | Definitive evidence that dark matter (DM) dominates our universe is the second demonstration of BSM physics. Nuclear physics can play an important role in this […]
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Dense Matter and Neutron Stars
PFC Major Activity 3 | The announcement on 17 August 2017 by LIGO and Virgo of the detection of gravitational waves from a binary neutron star merger, followed by the […]