TY - GEN
T1 - Neutrino astronomy as a probe into physics of hot and dense matter
AU - Nakazato, Ken'ichiro
AU - Sumiyoshi, Kohsuke
AU - Suzuki, Hideyuki
AU - Yamada, Shoichi
PY - 2010
Y1 - 2010
N2 - We have performed several simulations on non-rotational core-collapses of a star with 4OM⊙ by a general relativistic ν-radiation-hydrodynamics code and computed quantitatively the dynamics up to the black hole formation as well as the neutrino luminosities and spectra. Employing different hadronic equations of state (EOS), we have demonstrated that the duration of neutrino emissions from this event is sensitive to the stiffness of EOS at supra-nuclear densities and, therefore, that the observation of neutrinos from such an event will provide us with valuable information on the properties of dense and hot hadronic matter as well as on the maximum mass of proto-neutron stars. However, this approach can not distinguish EOS's with a similar stiffness: a soft nucleonic EOS and a hyperonic EOS, for example. In this study, we attempt to break this degeneracy by analyzing more in detail the time variation of neutrino numbers observed at a terrestrial detector. Performing the Kolmogolov- Smirnovtest, which is free from the ambiguity of the distance to the progenitor, we show that the break-up of the degeneracy of hadronic EOS's is indeed feasible for Galactic events.
AB - We have performed several simulations on non-rotational core-collapses of a star with 4OM⊙ by a general relativistic ν-radiation-hydrodynamics code and computed quantitatively the dynamics up to the black hole formation as well as the neutrino luminosities and spectra. Employing different hadronic equations of state (EOS), we have demonstrated that the duration of neutrino emissions from this event is sensitive to the stiffness of EOS at supra-nuclear densities and, therefore, that the observation of neutrinos from such an event will provide us with valuable information on the properties of dense and hot hadronic matter as well as on the maximum mass of proto-neutron stars. However, this approach can not distinguish EOS's with a similar stiffness: a soft nucleonic EOS and a hyperonic EOS, for example. In this study, we attempt to break this degeneracy by analyzing more in detail the time variation of neutrino numbers observed at a terrestrial detector. Performing the Kolmogolov- Smirnovtest, which is free from the ambiguity of the distance to the progenitor, we show that the break-up of the degeneracy of hadronic EOS's is indeed feasible for Galactic events.
KW - Equation of state for nuclear matter
KW - Neutrino astronomy
KW - Stellar core collapse
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U2 - 10.1063/1.3455918
DO - 10.1063/1.3455918
M3 - Conference contribution
AN - SCOPUS:77954598976
SN - 9780735407848
T3 - AIP Conference Proceedings
SP - 145
EP - 150
BT - Tours Symposium on Nuclear Physics and Astrophysics - VII
T2 - 7th Tours Symposium on Nuclear Physics and Astrophysics
Y2 - 16 November 2009 through 20 November 2009
ER -