MG15 - Talk detail |
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Participant |
Barranco, Juan | |||||||
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Institution |
University of Guanajuato - Loma del Bosque 103 - Leon - Guanajuato - Mexico | |||||||
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Session |
HE2 |
Accepted |
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Time |
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Talk |
Oral abstract |
Title |
Diffuse Neutrino Supernova Background As A Cosmological Test | |||||
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Abstract |
The future detection and measurement of the diffuse neutrino supernova background will provide us with information about supernova neutrino emission and the cosmic core-collapse supernova rate. Little has been said about the information that this measurement could give us about the expansion history of the Universe. The purpose of this article is to study the change of the predicted diffuse supernova neutrino background as a function of the cosmological model. In particular, we study three different models: the Λ–Cold Dark Matter model, the Logotropic universe and a bulk viscous matter-dominated universe. By fitting the free parameters of each model with the supernova Ia probe, we calculate the predicted number of events in these three models. We found that the spectra and number of events for the Λ–Cold dark matter model and the Logotropic model are almost indistinguishable, while a bulk viscous matter-dominated cosmological model predicts more events. |
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Pdf file |
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Session |
DM4 |
Accepted |
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Time |
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Talk |
Oral abstract |
Title |
Can the dark matter halo be a collisionless ensemble of axion stars? | |||||
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Abstract |
If dark matter is mainly composed of axions, the density distribution can be nonuniformly distributed, being clumpy instead. By solving the Einstein-Klein-Gordon system of a scalar field with the potential energy density of an axionlike particle, we obtain the maximum mass of the self-gravitating system made of axions, called axion stars. The collision of axion stars with neutron stars may release the energy of axions due to the conversion of axions into photons in the presence of the neutron star’s magnetic field. We estimate the energy release and show that it should be much less than previous estimates [A. Iwazaki, Phys. Lett. B 486, 147 (2000); Phys. Rev. D 60, 025001 (1999)]. Future data from femtolensing should strongly constrain this scenario. |
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Pdf file |
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