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M1 neutrino transport within the numerical-relativistic code BAM with application to low mass binary neutron star mergers

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arxiv 2307.04572 v1 pith:FRZ37OCC submitted 2023-07-10 gr-qc astro-ph.HE

M1 neutrino transport within the numerical-relativistic code BAM with application to low mass binary neutron star mergers

classification gr-qc astro-ph.HE
keywords binarycodeneutrinoanalysisejectainfrastructureinteractionsneutron
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Neutrino interactions are essential for an accurate understanding of the binary neutron star merger process. In this article, we extend the code infrastructure of the well-established numerical-relativity code BAM that until recently neglected neutrino-driven interactions. In fact, while previous work allowed already the usage of nuclear-tabulated equations of state and employing a neutrino leakage scheme, we are moving forward by implementing a first-order multipolar radiation transport scheme (M1) for the advection of neutrinos. After testing our implementation on a set of standard scenarios, we apply it to the evolution of four low-mass binary systems, and we perform an analysis of ejecta properties. We also show that our new ejecta analysis infrastructure is able to provide numerical relativity-informed inputs for the codes $\texttt{POSSIS}$ and $\texttt{Skynet}$, for the computation of kilonova lightcurves and nucleosynthesis yields, respectively.

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Cited by 3 Pith papers

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