Monte Carlo Study of Supernova Neutrino Spectra Formation

Abstract

The neutrino flux and spectra formation in a supernova core is studied by using a Monte Carlo code. The dominant opacity contribution for numu and nutau is elastic scattering on nucleons. In addition we switch on or off a variety of processes which allow for the exchange of energy or the creation and destruction of neutrino pairs, notably nucleon bremsstrahlung, the e+ e- pair annihilation process and nue-bar nue -> numu,tau numu,tau-bar, recoil and weak magnetism in elastic nucleon scattering, elastic scattering on electrons and positrons and elastic scattering on electron neutrinos and anti-neutrinos. The least important processes are neutrino-neutrino scattering and e+ e- annihilation. The formation of the spectra and fluxes of numu is dominated by the nucleonic processes, i.e. bremsstrahlung and elastic scattering with recoil, but also nue nue-bar annihilation and numu e scattering contribute significantly. When all processes are included, the spectral shape of the emitted neutrino flux is always ``pinched,'' i.e. the width of the spectrum is smaller than that of a thermal spectrum with the same average energy. In all of our cases we find that the average numu-bar energy exceeds the average nue-bar energy by only a small amount, 10% being a typical number. Weak magnetism effects cause the opacity of numu to differ slightly from that of numu-bar, translating into differences of the luminosities and average energies of a few percent. Depending on the density, temperature, and composition profile, the flavor-dependent luminosities Lnue$, Lnue-bar, and Lnumu can mutually differ from each other by up to a factor of two in either direction.

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