Astronomy and Astrophysics – Astrophysics
Scientific paper
2004-11-12
Astronomy and Astrophysics
Astrophysics
PhD Thesis (in Spanish), 127 pages
Scientific paper
We explore several aspects related to the propagation of high energy cosmic rays (CRs) of galactic origin (i.e. in the range $E\simeq 10^{15}- 10^{18}$ eV). In particular, we study in detail the diffusion/drift scenario, a rigidity-dependent model that explains the origin of the knee and the second knee of the CR spectrum, as well as the most recent observations of composition and anisotropies. Moreover, the behavior of the diffusion tensor for charged particles propagating in highly turbulent magnetic fields is determined numerically. We also investigate the high energy neutrino fluxes induced by CRs, and we show that a rigidity-dependent scenario for the CR knee reduces the background of atmospheric neutrinos, hence encouraging the search for astrophysical neutrino sources. After exploring this effect in the detection channel of lepton tracks, we investigate the less studied ``shower'' channel, which turns out to be particularly effective for isolating the prompt atmospheric neutrino component. Finally, we consider in detail the nuclear photodisintegration model as an alternative explanation for the knee in the CR spectrum, in which CR nuclei emitted by a source are disintegrated during their propagation through a surrounding optical/UV photon field. In this case, the composition is predicted to turn lighter across the knee, in constrast to the results obtained in rigidity-dependent scenarios.
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