2007
DOI: 10.1016/j.astropartphys.2007.07.002
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Gravitational lensing of supernova neutrinos

Abstract: The black hole at the center of the galaxy is a powerful lens for supernova neutrinos. In the very special circumstance of a supernova near the extended line of sight from Earth to the galactic center, lensing could dramatically enhance the neutrino flux at Earth and stretch the neutrino pulse.PACS numbers: 98.62. Sb,95.30.Sf,95.85.Ry,97.60.Bw

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Cited by 21 publications
(28 citation statements)
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“…While these effects are expected to be small, even for huge gravitational sources such as massive/supermassive black holes, they could provide, in principle, a way to test the impact of quantum gravity and of other radiative corrections to the propagation of cosmic rays. Close encounters of a beam with a localized source, which could be a large black hole or a neutron star, are expected to be quite common in our universe, although the probability of identifying a lensing event characterized by a close alignment between the source, the lens and an earth based detector, especially for neutrinos, is exceedingly rare [9]. The situation might be more promising for photons in close encounters with primordial black holes, revealed by resorting to spaceborne detectors.…”
Section: Comparing Classical and Semiclassical Effectsmentioning
confidence: 99%
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“…While these effects are expected to be small, even for huge gravitational sources such as massive/supermassive black holes, they could provide, in principle, a way to test the impact of quantum gravity and of other radiative corrections to the propagation of cosmic rays. Close encounters of a beam with a localized source, which could be a large black hole or a neutron star, are expected to be quite common in our universe, although the probability of identifying a lensing event characterized by a close alignment between the source, the lens and an earth based detector, especially for neutrinos, is exceedingly rare [9]. The situation might be more promising for photons in close encounters with primordial black holes, revealed by resorting to spaceborne detectors.…”
Section: Comparing Classical and Semiclassical Effectsmentioning
confidence: 99%
“…Specifically, in the case of a massive (Dirac) fermion one obtains 9) where the V µν m vertex is in this case given by…”
Section: Jhep07(2015)160mentioning
confidence: 99%
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“…Por esta razão é necessário ampliar o estudo de lentes gravitacionais para incluir lenteamento de neutrinos pois, como outras formas de matéria e energia, tambeém estão sujeitos à interação gravitacional. Estudos deste tipo já foram feitos para ou lenteamento gravitacional de neutrinos por estrelas e galáxias [76], para lenteamento de neutrinos de supernovas [77] e para fontes de neutrino transitórias associadas com explosões de raios gama.…”
Section: Deflexão De Um Feixe De Neutrinos Por Um Buraco Negro Supermunclassified